4.6 The rate and extent of chemical change 4.6.1 Rate of reaction 4.6.1.1 Calculating rates of reactions 4.6.1.2 Factors which affect the rates of chemical reactions 4.6.1.3 Collision theory and activation energy 4.6.1.4 Catalysts Required practical 5: investigate how changes in concentration affect the rates of reactions by a method involving measuring the volume of a gas produced and a method involving a change in colour or turbidity. This should be an investigation involving developing a hypothesis. Content split over 15 lessons -but more including practical lessons (lessons in our school are 40 minutes so can condense material for longer lessons if required) All exam questions have been removed for copyright purposes All extension questions available on each slide Answers all underneath each slide Support also available where necessary AfL sections and mini quizzes Reducing the need for photocopying Lesson 1: Measuring rates To understand reaction rates To investigate practically different methods for measuring the rate of reaction To interpret graphs that show the rate of reaction Lesson 2: Collision theory To understand why reactions take place To know 4 ways to increase the rate of reaction To be able to calculate rates from graphs Lesson 3: Graph skills To be able to calculate rates To be able to calculate rates from graphs To consolidate learning with questions Lesson 4 to 7: Surface Area L4: DEMO To watch a demonstration of surface area To explain the effect of surface area on rate of reaction To consolidate learning with questions L5 & 6 PRACTICAL 1068: Surface Area Experiment (Gas Volume / Large & Small Marble Chips) To carry out a practical investigating the effect of surface area on rate of reaction To be able to draw a graph to show your results To consolidate learning with questions L7: To complete all graphs and carry out a check To calculate the rate of reactions for each lump To consolidate learning with questions Lesson 8 & 9 RP 5 Concentration Experiment (Gas Volume / Acid Molarity/ Marble Chips) L8 To write a hypothesis To investigate the effects on the rate of reaction by changing the concentration To consolidate learning with questions L9: To explain the effects on rate of reaction using the collision theory To interpret graphs that show the rate of reaction To consolidate learning Lesson 10: PRACTICAL Investigation into the Rate Between Sodium Thiosulphate and Hydrochloric Acid To write a hypothesis To carry out a second practical to investigate concentration represented by colour change To consolidate learning Lesson 11 + 12: Temperature L11: Temperature Experiment (Gas Volume Marble Chips) To complete the match up To carry out a practical investigating the effect of temperature on rate of reaction To consolidate learning L12:

4.4.3 Electrolysis 4.4.3.1 The process of electrolysis 4.4.3.2 Electrolysis of molten ionic compounds 4.4.3.3 Using electrolysis to extract metals 4.4.3.4 Electrolysis of aqueous solutions Required practical 3: investigate what happens when aqueous solutions are electrolysed using inert electrodes. This should be an investigation involving developing a hypothesis. 4.4.3.5 Representation of reactions at electrodes as half equations (HT only) Content split over 12 lessons -but more including practical lessons (lessons in our school are 40 minutes so can condense material for longer lessons if required) All exam questions have been removed for copyright purposes All extension questions available on each slide Answers all underneath each slide Support also available where necessary AfL sections and mini quizzes Reducing the need for photocopying Lesson 1: Electrolysis the basics To recall the properties of ionic compounds from year 9 To understand the terms electrolysis, electrolytes, anode, cathode and electrodes To explain the movement of ions during electrolysis Lesson 2 + 3 Molten PLUS DEMONSTRATION AND HT 1/2 equations To explain OILRIG in terms of electrodes To watch the demonstration of the electrolysis of lead bromide To explain how to predict the products of electrolysis of molten ionic solids with half equations (HT) Lesson 4: Extracting metals (Aluminium) To recall how metals are extracted from ores To explain how aluminium is manufactured To write half equations Lesson 5 + 6: Aqueous PLUS HT 1/2 equations To recall the preferential discharge of ions To explain how to predict the products of electrolysis of aqueous solutions To consolidate learning Lesson 7, 8 and 9: PRACTICALS and HT 1/2 equations To devise a hypothesis about the products that will be formed at the electrodes To complete a practical To consolidate learning Lesson 10: Electrolysis of Water To observe the electrolysis of water To explain the electrolysis of water To consolidate learning by reviewing the practical completed on aqueous solutions Lesson 11: Copper To investigate the change in mass of the anode and of the cathode, when copper sulfate solution is electrolysed between copper electrodes To explain how this process can be used to purify copper To explain the reactions taking place at the copper electrodes (H) Lesson 12: RUSTING To explain how experimental results can be used to show the conditions necessary for rusting To explain in detail how to prevent iron from rusting To consolidate using questions

4.5 Energy changes 4.5.1 Exothermic and endothermic reactions 4.5.1.1 Energy transfer during exothermic and endothermic reactions Required practical 4: investigate the variables that affect temperature changes in reacting solutions such as, eg acid plus metals, acid plus carbonates, neutralisations, displacement of metals. 4.5.1.2 Reaction profiles 4.5.1.3 The energy change of reactions (HT only) Content split over 11 lessons -but more including practical lessons (lessons in our school are 40 minutes so can condense material for longer lessons if required) All exam questions have been removed for copyright purposes All extension questions available on each slide Answers all underneath each slide Support also available where necessary AfL sections and mini quizzes Reducing the need for photocopying Lesson 1: Endothermic and exothermic To recall the definitions of endothermic and exothermic reactions To list several endothermic and exothermic reactions To consolidate learning with questions Lesson 2: PRACTICALS PRACTICAL 1132 - Reaction between zinc (I want magnesium) and copper sulphate solution PRACTICAL 1134 - Investigating the reaction between calcium oxide (I want ammonium nitrate and water) and water To be able to recognise an endothermic and exothermic reaction from practical data To consolidate learning with questions To complete a 6 mark exam question Lesson 3 and 4: REQUIRED PRACTICAL To plan an experiment To complete a practical based on your plan To evaluate the practical completed Lesson 5: MEXICAN BEN (HT) To complete a 10 question recall To be able to describe these reactions in terms of bond breaking and making (HT) To be able to explain the overall heat energy change for a reaction (HT) Lesson 6: Reaction profiles To recall the terms activation energy To be able to draw and interpret simple graphical representations of energy changes occurring in chemical reactions Consolidate learning with questions Lesson 7: Energy profile To complete a 10 question check up To understand energy changes To be able to calculate the energy change in a reaction given the energies of bonds (in kJmol-1) (H)

4.4.2 Reactions of acids 4.4.2.1 Reactions of acids with metals 4.4.2.2 Neutralisation of acids and salt production 4.4.2.3 Soluble salts 4.4.2.4 The pH scale and neutralisation 4.4.2.5 Titrations (chemistry only) 4.4.2.6 Strong and weak acids (HT only) Content split over 12 lessons -but more including practical lessons (lessons in our school are 40 minutes so can condense material for longer lessons if required) All exam questions have been removed for copyright purposes All extension questions available on each slide Answers all underneath each slide Support also available where necessary AfL sections and mini quizzes Reducing the need for photocopying Lesson1 Acid introduction PLUS PRACTICAL To recall some common acids and bases To explain the use of the pH scale and the use of indicators To consolidate learning with questions Lesson 2: Salt formation To be able to write word equations for neutralisation reactions To recall how to construct formulae from ions To be able to write symbol equations Lesson 3: Types of acid HIGHER To describe neutralisation in terms of H+ and OH- ions (H) Ionic equations - we teach it again here) To know how pH is determined (H) To explain in detail how the changes in concentration of hydrogen ions affect the pH of a solution (H) Lesson 4: Types of acid 2 HIGHER To explain the terms dilute and concentrated To explain the difference between weak and strong acids, with respect to the degree of dissociation of ions (H) To consolidate learning with questions Lesson 5: Soluble salt with insoluble metal oxide (REQUIRED PRACTICAL 1) To investigate how to prepare a soluble salt To apply learning to questions To consolidate learning Lesson 6: Questions for RP1 Lesson 7: Metals and acid To explain the general reactions for metals and the chemical test to identify the products To make a salt using direct combination To consolidate with a purple sheet assessment Lesson 8: Carbonates PLUS PRACTICALS To complete a practical To explain the general reactions for metal carbonate and the chemical test to identify the products To consolidate with a purple sheet assessment Lesson 9 + 10: Titration TRIPLE PLUS PRACTICAL To be able to prepare a soluble salt from an acid and a soluble reactant (alkali) To compare methods of preparing soluble salts To consolidate learning with questions Lesson 11 + 12: Soluibility PLUS PRACTICAL To recall the rules which describe the solubility of substances in water To be able to predict, using the solubility rules, if a precipitate will form in reactions To be able to describe the method used to prepare a pure, dry sample of an insoluble salt

4.10.4 The Haber process and the use of NPK fertilisers (chemistry only) 4.10.4.1 The Haber process 4.10.4.2 Production and uses of NPK fertilisers Content split over 7 lessons -but more including practical lessons (lessons in our school are 40 minutes so can condense material for longer lessons if required) All exam questions have been removed for copyright purposes All extension questions available on each slide Answers all underneath each slide Support also available where necessary AfL sections and mini quizzes Reducing the need for photocopying L1 + 2 Dynamic equilibrium Objectives: To complete a practical exercise To explain what is meant by the term dynamic equilibrium To consolidate learning with questions LEsson 3, 4 + 5: Le Chatelier Objectives: To recall how the position of a dynamic equilibrium is changed To understand Le Chatelier’s Principle (H) To predict how the position of the equilibrium is affected by changes in temperature, pressure and concentration (H) To understand how the time taken to reach equilibrium is affected by changes in the conditions (H) Lesson 6: Haber Process Objectives: To recall the conditions for the Haber process To explain how the conditions are chosen for industrial chemical reactions (H) To explain the reaction pathways chosen from industrial processes (H) Lesson 7: Fertilisers Objectives: To recall 3 essential elements for plant growth To be understand how to name several fertilisers made from different acid and alkali compounds To describe and compare the laboratory preparation and the industrial production of ammonium sulfate

Complete lesson package FORCES L1 Forces recap from Year 7 L2 Balanced and unbalanced forces L3 Resultant forces and streamlining/drag L4 practical in the booklet L5 Speed L6 Practical in the booklet GRAVITY L1 Gravity in space PRESSURE L1 Pressure L2 PRACTICAL L3 Taking the plunge L4 Pressure in the air /Air pressure Free booklet found in my shop - it cannot be added here due to licence (AQA KS3 booklets) Enjoy

Complete lesson package L1 Magnetic objects L2 Magnetic fields L3 Making a magnet L4 Electromagnets L5 Electromagnets PRACTICAL Free booklet found in my shop - it cannot be added here due to licence (AQA KS3 booklets)

Complete section L1 Energy stores and in action L2 Energy is conserved, efficiency and working out efficiency (with extra work on sankey diagrams for higher achievers) Free booklet found in my shop - it cannot be added here due to licence (AQA KS3 booklets)