2 well structured chemistry lessons covering the Year 12 OCR topic of: **Organic Synthesis ** Lesson 1: Practical skills for organic synthesis To demonstrate knowledge, understanding and application of the use of Quickfit apparatus for distillation and heating under reflux To understand the techniques for preparation and purification of an organic liquid including: Lesson 2: Synthetic routes in organic synthesis To identify individual functional groups for an organic molecule containing several functional groups To predict the properties and reactions of an organic molecule containing several functional groups To create two-stage synthetic routes for preparing organic compounds Declaimer: Please refrain from purchasing this popular resource for an interview lesson or a formal observation. This is because planning your own lessons including using your own lesson PowerPoints is a fundamental skill of a qualified/unqualified teacher that will be reviewed during these scenarios outlined above

6 Full Lesson Bundle on Nitrogen Compounds and Polymers suitable for the OCR A Level Chemistry specification. Please review the learning objectives below. Lesson 1: Introduction to Amines To know how to name amines using IUPAC rules To understand the basicity of amines in terms of proton acceptance by the nitrogen lone pair To understand the reactions of amines with dilute inorganic acids Lesson 2: Preparation of Amines To know the reaction steps involved in the preparation of aromatic amines by reduction of nitroarenes using tin and concentrated hydrochloric acid To know the reaction steps involved in the preparation of aliphatic amines by substitution of haloalkanes with excess ethanolic ammonia or amines To explain the reaction conditions that favours the formation of a primary aliphatic amine To explain the reaction conditions that favours the formation of a quaternary ammonium salt Lesson 3: Amino Acids and Their Reactions To know the general formula for an α-amino acid as RCH(NH2)COOH To understand the following reactions of amino acids: (i) reaction of the carboxylic acid group with alkalis and in the formation of esters (ii) reaction of the amine group with acids Lesson 4: Chirality To know that optical isomerism is an example of stereoisomerism, in terms of non- superimposable mirror images about a chiral centre To identify chiral centres in a molecule of any organic compound. To construct 3D diagrams of optical isomers including organic compounds and transition metal complexes Lesson 5: Amides To review the synthesis of primary and secondary amides To understand the structures of primary and secondary amides To name primary and secondary amides Lesson 6: Condensation Polymers 1.To know that condensation polymerisation can lead to the formation of i) polyesters ii) polyamides 2. To predict from addition and condensation polymerisation: i) the repeat unit from a given monomer(s) (ii) the monomer(s) required for a given section of a polymer molecule (iii) the type of polymerisation 3. To understand the acid and base hydrolysis of i) the ester groups in polyesters ii) the amide groups in polyamides Declaimer: Please refrain from purchasing this popular resource for an interview lesson or a formal observation. This is because planning your own lessons including using your own lesson PowerPoints is a fundamental skill of a qualified/unqualified teacher that will be reviewed during these scenarios outlined above

3 Full Lesson Bundle on Buffer Solutions. This bundle covers the AQA A Level Chemistry specification. Please review the learning objectives below. **Part 1: Explaining How Buffer Solutions Work To know a buffer solution is a system that minimises pH changes on addition of small amounts of an acid or base To describe how a buffer solution is formed using weak acids, salts and weak bases To explain qualitatively the action of acidic and basic buffers **Part 2: Buffer Solution Calculations (Part 1) To calculate the pH of a buffer solution containing a weak acid and the salt of a weak acid by using the Ka expression and pH equation To calculate equilibrium concentrations, moles or mass of the components of a weak acid-salt of a weak acid buffer solution Part 3: Buffer Solution Calculations (Part 2) To calculate changes in pH when a small amount of acid or alkali is added to an acidic buffer solution Declaimer: Please refrain from purchasing this popular resource for an interview lesson or a formal observation. This is because planning your own lessons including using your own lesson PowerPoints is a fundamental skill of a qualified/unqualified teacher that will be reviewed during these scenarios outlined above

5 Full Lesson Bundle which covers the lessons on aromatic compounds from the OCR A Level Chemistry Specification. See below for the lesson objectives Lesson 1: Benzene and its Structure To describe the Kekulé model of benzene To describe the delocalised model of benzene in terms of P orbital overlap forming a delocalised π system To compare the Kekulé model of benzene and the delocalised model of benzene To explain the experimental evidence which supports the delocalised model of benzene in terms of bond lengths, enthalpy change of hydrogenation and resistance to reaction Lesson 2: Naming Aromatic Compounds State the IUPAC name of substituted aromatic compounds Construct the structure of aromatic compounds based on their IUPAC names Analyse the correct numbering system for di and trisubstituted aromatic compounds Lesson 3: The Reactions of Benzene To understand the electrophilic substitution of aromatic compounds with: (i) concentrated nitric acid in the presence of concentrated sulfuric acid (ii) a halogen in the presence of a halogen carrier (iii) a haloalkane or acyl chloride in the presence of a halogen carrier (Friedel–Crafts reaction) and its importance to synthesis by formation of a C–C bond to an aromatic ring To construct the mechanism of electrophilic substitution in arenes Lesson 4: Phenols To recall and explain the electrophilic substitution reactions of phenol: with bromine to form 2,4,6-tribromophenol (ii) with dilute nitric acid to form a mixture of 2-nitrophenol and 4-nitrophenol (j) To explain the relative ease of electrophilic substitution of phenol compared with benzene, in terms of electron pair donation to the π-system from an oxygen p-orbital in phenol To understand the weak acidity of phenols shown by its neutralisation reaction with NaOH but absence of reaction with carbonates Lesson 5: Directing Groups in Aromatic Compounds To understand the 2- and 4-directing effect of electron- donating groups (OH, NH2) and the 3-directing effect of electron-withdrawing groups (NO2) in electrophilic substitution of aromatic compounds To predict the substitution products of aromatic compounds by directing effects in organic synthesis Declaimer: Please refrain from purchasing this popular resource for an interview lesson or a formal observation. This is because planning your own lessons including using your own lesson PowerPoints is a fundamental skill of a qualified/unqualified teacher that will be reviewed during these scenarios outlined above

3 structured lessons covering topics from AS Chemistry haloalkanes from the OCR Specification Lesson 1: Haloalkanes and their Reactions (part 1) LO1. To define and use the term nucleophile LO2. To outline the mechanism for nucleophilic substitution of haloalkanes Lesson 2: Haloalkanes and their Reactions (part 2) LO1. To explain the trend in the rates of hydrolysis of primary haloalkanes in terms of the bond enthalpies of carbon-halogen bonds LO2. To describe how the rate of hydrolysis of haloalkanes can be determined by experiment using water, ethanol and silver nitrate solution Lesson 3: Haloalkanes and the environment LO1. To know how halogen radicals are produced from chlorofluorocarbons (CFCs) by the action of UV radiation LO2. To construct equations for the production of halogen radicals from CFCs LO3. To construct equations for the catalysed breakdown of ozone by Cl. and other radicals (NO.) Declaimer: Please refrain from purchasing this popular resource for an interview lesson or a formal observation. This is because planning your own lessons including using your own lesson PowerPoints is a fundamental skill of a qualified/unqualified teacher that will be reviewed during these scenarios outlined above

3 structured lessons covering topics from AS Chemistry Alcohols from the OCR Specification Lesson 1: Properties of Alcohols LO1: To identify and explain the intermolecular forces that are present in alcohol molecules LO2: To explain the water solubility of alcohols, their low volatility and their trend in boiling points LO3: To classify alcohols as primary, secondary or tertiary alcohols Lesson 2: Oxidation of Alcohols LO1: To know that alcohols can undergo combustion reactions in the presence of oxygen LO2:To know alcohols can be oxidised by an oxidising agent called acidified potassium dichromate LO3:To know the products and reaction conditions for the oxidation of primary alcohols to aldehydes and carboxylic acids LO4:To know the products and reaction conditions for the oxidation of secondary alcohols to ketones Lesson 3: Other Reactions of Alcohols LO1: To know the elimination of H2O from alcohols in the presence of an acid catalyst and heat to form alkenes LO2: To know the substitution of alcohols with halide ions in the presence of acid to form haloalkanes Declaimer: Please refrain from purchasing this popular resource for an interview lesson or a formal observation. This is because planning your own lessons including using your own lesson PowerPoints is a fundamental skill of a qualified/unqualified teacher that will be reviewed during these scenarios outlined above

3 Full Lesson Bundle which covers the Kinetics chapter from the OCR AS Level Chemistry Specification (may also suitable for the AQA and Edexcel Spec- see Learning Objectives below to confirm) Lesson 1: Collision Theory & Rates of Reaction **1. To explain the effect of concentration (including pressure of gases only) on the rate of reaction in terms of the frequency of collisions **2. To calculate the rate of reaction using the gradients of a concentration-time graph **3. To describe the techniques and procedures used to investigate reaction rates including the measurement of mass, gas volumes and concentration Lesson 2: Catalysts **1. To explain the effect of concentration (including pressure of gases only) on the rate of reaction in terms of the frequency of collisions **2. To calculate the rate of reaction using the gradients of a concentration-time graph **3. To describe the techniques and procedures used to investigate reaction rates including the measurement of mass, gas volumes and concentration Lesson 3: The Boltzmann Distribution **1. To draw a labelled diagram of the Boltzmann distribution **2. To explain qualitatively the Boltzmann distribution and its relationship with activation energy **3. To explain how temperature changes and catalytic behaviour effect the proportion of molecules exceeding the activation energy and hence the reaction rate using Boltzmann distributions Declaimer: Please refrain from purchasing this popular resource for an interview lesson or a formal observation. This is because planning your own lessons including using your own lesson PowerPoints is a fundamental skill of a qualified/unqualified teacher that will be reviewed during these scenarios outlined above

2 structured lessons covering topics from AS Chemistry haloalkanes and their reactions from the OCR Specification Lesson 1: Haloalkanes and their Reactions (part 1) **LO1. To define and use the term nucleophile LO2. To outline the mechanism for nucleophilic substitution of haloalkanes Lesson 2: Haloalkanes and their Reactions (part 2) **LO1. To explain the trend in the rates of hydrolysis of primary haloalkanes in terms of the bond enthalpies of carbon-halogen bonds LO2. To describe how the rate of hydrolysis of haloalkanes can be determined by experiment using water, ethanol and silver nitrate solution Declaimer: Please refrain from purchasing this popular resource for an interview lesson or a formal observation. This is because planning your own lessons including using your own lesson PowerPoints is a fundamental skill of a qualified/unqualified teacher that will be reviewed during these scenarios outlined above

10 Full Lesson Bundle + BONUS lesson on Acids, bases & buffers. This bundle covers the OCR A Level Chemistry specification. Please review the learning objectives below. Lesson 1: Bronsted-Lowry Acid and Bases To describe the difference between a BrØnsted Lowry acid and base To identify conjugate acid-base pairs To explain the difference between monobasic, dibasic and tribasic acids To understand the role of H+ in the reactions of acids with metals and bases (including carbonates, metal oxides and alkalis), using ionic equations Lesson 2: Strong Acids & The pH Scale To calculate the pH of a strong acid To convert between pH and [H+(aq)] To apply the relationship between pH and [H+(aq)] to work out pH changes after dilution **Lesson 3 - The Acid Dissociation Constant ** To understand the acid dissociation constant, Ka, as the extent of acid dissociation To know the relationship between Ka and pKa To convert between Ka and pKa Lesson 4- pH of weak acids To recall the expression of pH for weak monobasic acids To calculate the pH of weak monobasic acids using approximations To analyse the limitations of using approximations to Ka related calculations for ‘stronger’ weak acids Lesson 5 - The ionic product of water To recall the expression for the ionic product of water, Kw (ionisation of water) To calculate the pH of strong bases using Kw To apply the principles for Kc, Kp to Kw Lesson 6-9 - Buffer Solutions (3 part lesson) Part 1: Explaining How Buffer Solutions Work To know a buffer solution is a system that minimises pH changes on addition of small amounts of an acid or base To describe how a buffer solution is formed using weak acids, salts and strong alkalis To explain the role of the conjugate acid-base pair in an acid buffer solution such as how the blood pH is controlled by the carbonic acid–hydrogencarbonate buffer system Part 2: Buffer Solution Calculations (Part 1) To calculate the pH of a buffer solution containing a weak acid and the salt of a weak acid by using the Ka expression and pH equation To calculate equilibrium concentrations, moles or mass of the components of a weak acid-salt of a weak acid buffer solution Part 3: Buffer Solution Calculations (Part 2) To calculate the pH of a weak acid-strong alkali buffer solution To calculate equilibrium concentrations, moles or mass of the components of a weak acid- strong alkali buffer solution BONUS Lesson 9 : Revision on Buffer Solutions To review how to calculate the pH of a buffer solution containing a weak acid and a strong alkali To review how to calculate the pH of a buffer solution containing a weak acid and the salt of the weak acid Lesson 10- Neutralisation & Titration Curves To interpret titration curves of strong and weak acids and strong and weak bases To construct titration curve diagrams of strong and weak acids and strong and weak bases **Lesson 11- pH indicators & Titration Curves ** To explain indicator colour changes in terms of equilibrium shift between the HA and A- forms of the indicator To explain the choice of suitable indicators given the pH range of the indicator To describe an experiment for creating a titration curve Declaimer: Please refrain from purchasing this popular resource for an interview lesson or a formal observation. This is because planning your own lessons including using your own lesson PowerPoints is a fundamental skill of a qualified/unqualified teacher that will be reviewed during these scenarios outlined above

7 Full Lesson Bundle + A Bonus Revision Lesson which covers the Kinetics (How Fast?) chapters from the OCR A Level Chemistry Specification (also suitable for the AQA and Edexcel Spec- see Learning Objectives below) Lesson 1: Order of Reactants Lesson 2: The Rate Equation Lesson 3&4 Concentration-Time Graphs Lesson 5: Initial Rates and Clock Reactions Lesson 6: The Rate Determining Step Lesson 7: The Arrhenius Equation Lesson 8: Revision Lesson Learning Objectives: Lesson 1: LO1: To recall the terms rate of reaction, order, overall order and rate constant LO2: To describe how orders of reactants affect the rate of a reaction LO3: To calculate the overall order of a reaction Lesson 2: LO1: To determine the order of a reactant from experimental data LO2: To calculate the rate constant, K, from a rate equation LO3: To calculate the units of the rate constant Lesson 3&4: LO1: To know the techniques and procedures used to investigate reaction rates LO2: To calculate reaction rates using gradients from concentration-time graphs LO3: To deduce zero & first order reactants from concentration-time graphs LO4: To calculate the rate constant of a first order reactant using their half-life Lesson 5: LO1: To determine the rate constant for a first order reaction from the gradient of a rate- concentration graph LO2: To understand how rate-concentration graphs are created LO3: To explain how clock reactions are used to determine initial rates of reactions Lesson 6: LO1: To explain and use the term rate determining step LO2: To deduce possible steps in a reaction mechanism from the rate equation and the balanced equation for the overall reaction LO3: To predict the rate equation that is consistent with the rate determining step Lesson 7: LO1: Explain qualitatively the effect of temperature change on a rate constant,k, and hence the rate of a reaction LO2: To Know the exponential relationship between the rate constant, k and temperature, T given by the Arrhenius equation, k = Ae–Ea/RT LO3: Determine Ea and A graphically using InK = -Ea/RT+ InA derived from the Arrhenius equation Lesson 8: This is an engaging KS5 revision lesson the Kinetics topic in A Level Chemistry (Year 13) Students will be able to complete three challenging question rounds on kinetics covering: Measuring Reaction Rates Orders of reactants Concentration-time graphs Rate-concentration graphs Clock Reactions Initial rates Arrhenius Equation Declaimer: Please refrain from purchasing this popular resource for an interview lesson or a formal observation. This is because planning your own lessons, including using your own lesson PowerPoints, is a fundamental skill of a qualified/unqualified teacher that will be assessed during the scenarios outlined above

6 Full Lesson Bundle (includes a bonus lesson) on the topic of Equilibrium from the OCR A Level Chemistry specification plus an end of topic test. See below for the lessons and learning objectives Lesson 1: Le Chatelier’s Principle To explain the term dynamic equilibrium To apply le Chatelier’s principle to homogeneous equilibria in order to deduce qualitatively the effect of a change in temperature, pressure or concentration on the position of equilibrium To explain why catalysts do not change the position of equilibrium To explain the importance to the chemical industry of a compromise between chemical equilibrium and reaction rate in deciding the operational conditions Lesson 2: The Equilibrium Constant Kc (Part 1) To construct expressions for the equilibrium constant Kc for homogeneous reactions To calculate the equilibrium constant Kc from provided equilibrium concentrations To estimate the position of equilibrium from the magnitude of Kc To know the techniques and procedures used to investigate changes to the position of equilibrium for changes in concentration and temperature Lesson 3: The Equilibrium Constant Kc (Part 2) To construct expressions for the equilibrium constant Kc for homogeneous and heterogeneous reactions To calculate units for Kc To calculate quantities present at equilibrium and therefore kc given appropriate data Lesson 4: Controlling The Position of Equilibrium (Kc) To understand and explain the effect of temperature, concentration, pressure and catalysts on Kc and controlling the position of equilibrium Lesson 5: The Equilibrium Constant Kp To use the terms mole fraction and partial pressure To construct expressions for Kp for homogeneous and heterogeneous equilibria To calculate Kp including determination of units To understand the affect of temperature, pressure, concentration and catalysts on Kp and controlling the position of equilibrium Lesson 6 (BONUS): Chemical Equilibirum (Practical Skills): To understand how a titration experiment can be used to calculate the equilibrium constant, Kc To understand how a colorimeter can be used to calculate the equilibrium constant, Kc To analyse exam questions based on titration experiments in order to calculate out Kc End of Topic Test: A 45 minute end of chapter test on chemical equilibrium. The test covers content from both year 12 and 13 OCR on chemical equilibrium. A markscheme with model answers is also included which enables students self assess their answers in class with their teacher or as a homework task. The test is based on the following learning objectives: Apply le Chatelier’s principle to deduce qualitatively (from appropriate information) the effect of a change in temperature, concentration or pressure, on a homogeneous system in equilibrium. Explain that a catalyst increases the rate of both forward and reverse reactions in an equilibrium by the same amount resulting in an unchanged position of equilibrium Deduce, for homogeneous and heterogeneous reactions, expressions for the equilibrium constant Kc. Calculate the values of the equilibrium constant, Kc (from provided or calculated equilibrium moles or concentrations), including determination of units. Estimate the position of equilibrium from the magnitude of Kc. Calculate, given appropriate data, the concentration or quantities present at equilibrium. Deduce, for homogeneous and heterogeneous reactions, expressions for the equilibrium constant Kp. Calculate the values of the equilibrium constant, Kp (from provided or calculated equilibrium moles or pressures), including determination of units. Explain the effect of changing temperature on the value of Kc or Kp for exothermic and endothermic reactions. State that the value of Kc or Kp is unaffected by changes in concentration or pressure or by the presence of a catalyst. Explain how Kc or Kp controls the position of equilibrium on changing concentration, pressure and temperature Declaimer: Please refrain from purchasing this popular resource for an interview lesson or a formal observation. This is because planning your own lessons including using your own lesson PowerPoints is a fundamental skill of a qualified/unqualified teacher that will be reviewed during these scenarios outlined above

8 Full Lesson Bundle which covers the redox and electrode potential section of the OCR Energy Chapter: Lesson 1 & 2: Redox Reactions Lesson 3& 4: Redox Titrations Lesson 5&6: Standard Electrode & Cell Potentials Lesson 7: Limitations of Cell Potentials Lesson 8: Storage & Fuel Cells Learning Objectives: Lesson 1: LO1: To identify the oxidation numbers of elements in ions and compounds LO2: To construct half-equations from redox equations LO3: To explain and use the terms oxidising agent and reducing agent Lesson 2: LO1: To understand that the overall increase in oxidation number will equal the overall decrease in oxidation number LO2: To construct balanced half equations and overall redox equations from reactions in acidic conditions LO3: To construct balanced half equations and overall redox equations from reactions in alkaline conditions (stretch & challenge) Lesson 3: LO1: To understand what a redox titration is. LO2: To describe the practical techniques and procedures used to carry out redox titrations involving Fe2+ /MnO4- LO3: To calculate structured titration questions based on experimental results of redox titrations involving Fe2+ /MnO4- and its derivatives Lesson 4: LO1: To describe the practical techniques and procedures used to carry out redox titrations for I2/S2O32- LO2: To calculate structured titration questions based on experimental results of redox titrations involving I2/S2O32- and non familiar redox systems LO3: To calculate non-structured titration questions based on experimental results of I2/S2O32- Lesson 5: LO1: To describe techniques and procedures used for the measurement of : i) Cell potentials of metals or non-metals in contact with their ions in aqueous solution ii) Ions of the same element in different oxidation states in contact with a Pt electrode Lesson 6: LO1: To use the term standard electrode potential E⦵ including its measurement using a hydrogen electrode LO2: To calculate a standard cell potential by combining two standard electrode potentials LO3: To predict the feasibility of electrode potentials to modern storage cells Lesson 7: LO1. To understand the limitations of predicting the feasibility of a reaction using cell potentials due to kinetics and non-standard conditions LO2. To explain why electrochemical cells may not work based on the limitations of using cell potentials Lesson 8: LO1: To understand the application of the principles of electrode potentials to modern storage cells LO2: To explain that a fuel cell uses the energy from a reaction of a fuel with oxygen to produce a voltage LO3: To derive the reactions that take place at each electrode in a hydrogen fuel cell The teacher will be able to check students have met these learning objectives through starter activities, discussion questions, mini AfL tasks and practice questions for students to complete Declaimer: Please refrain from purchasing this popular resource for an interview lesson or a formal observation. This is because planning your own lessons, including using your own lesson PowerPoints, is a fundamental skill of a qualified/unqualified teacher that will be assessed during the scenarios outlined above

4 well structured chemistry lessons covering topics in Alkenes (Year 12) suitable for the OCR specification NOTE: If you are also looking for a lesson on stereoisomerism in alkenes , this can also be found in my shop under the title ‘Isomers’ Lesson 1: The Properties of Alkenes To know the general formula of alkenes To explain the shape and bond angle around each carbon atom of a C=C bond To describe how π and σ bonds are formed in alkenes Lesson 2: Addition Reactions of Alkenes To know what an electrophile is To describe what an electrophilic addition reaction is To outline the mechanism for electrophilic addition Lesson 3: Addition Polymerisation To know the repeat unit of an addition polymer deduced from a polymer To identify the monomer that would produce a given section of an addition polymer To construct repeating units based on provided monomers Lesson 4: Dealing with Polymer Waste To understand the benefits for sustainability of processing waste polymers by: i) Combustion for energy production ii) Use as an organic feedstock for the production of plastics and other organic chemicals iii) Removal of toxic waste products such as HCl To understand the benefits to the environment of development of biodegradable and photodegradable polymers Declaimer: Please refrain from purchasing this popular resource for an interview lesson or a formal observation. This is because planning your own lessons including using your own lesson PowerPoints is a fundamental skill of a qualified/unqualified teacher that will be reviewed during these scenarios outlined above

3 structured lessons covering topics from AS Chemistry Alkanes from the OCR Specification Lesson 1: Properties of Alkanes To know alkanes are saturated alkanes containing sigma (σ)bonds that are free to rotate Explain the shape and bond angle round each carbon atom in alkanes in terms of electron pair repulsion Describe and explain the variations in boiling points of alkanes with different carbon chain lengths and branching in terms of London forces Lesson 2: Combustion of Alkanes To understand why alkanes are good fuels To recall the equations (both word and symbol) for complete combustion of alkanes To recall the equations (both word and symbol) for incomplete complete combustion of alkanes Lesson 3: Free Radical Substitution of Alkanes 1)To know what a free radical is 2) To describe the reaction mechanism for the free-radical substitution of alkanes including initiation, propagation and termination 3) To analyse the limitations of radical substitution in synthesis by formation of a mixture of organic products Declaimer: Please refrain from purchasing this popular resource for an interview lesson or a formal observation. This is because planning your own lessons, including using your own lesson PowerPoints, is a fundamental skill of a qualified/unqualified teacher that will be assessed during the scenarios outlined above

6 Well Structured Lessons + BONUS Required Practical Lesson on Making Salts from the AQA Specification on Chemical Changes. This bundle is suitable for students studying GCSE Chemistry or Higher Tier Combined Science The Following Lessons are included Lesson 1: Reactivity Series and Metal Extraction Deduce an order of reactivity of metals based on experimental results Explain reduction and oxidation by loss or gain of oxygen Explain how the reactivity is related to the tendency of the metal to form its positive ion Lesson 2: Oxidation and Reduction (in terms of electrons) write full ionic equations for displacement reactions Write half equations for displacement reactions identify in a half equation which species are oxidised or reduced Lesson 3: Reactions of Metals and Acid Describe how to make salts from metals and acids Construct word equations from metal and acid reactions Write full balanced symbol equations for making salts Lesson 4: Metal Oxides Identity that metals react with oxygen to form metal oxides Explain reduction and oxidation by loss or gain of oxygen Identify metal oxides as bases or alkalis Lesson 5: pH and Neutralisation State the ionic equation involved in neutralisation reactions Describe the use of a universal indicator to measure pH changes Compare acid strength and concentration Lesson 6: Electrolysis of Ionic Compound Know what electrolysis is and to state its uses Explain how electrolysis works Predict the reactions that occur at each electrode Declaimer: Please refrain from purchasing this popular resource for an interview lesson or a formal observation. This is because planning your own lessons, including using your own lesson PowerPoints, is a fundamental skill of a qualified/unqualified teacher that will be assessed during the scenarios outlined above

4 structured lessons covering topics from AS Chemistry Alkanes from the AQA Specification Lesson 1: Fractional Distillation of Crude Oil Describe what crude oil contains and to understand its uses Explain how crude oil is separated into useful fractions on an industrial scale Explain how crude oil is separated into useful fractions on an industrial scale Lesson 2: Cracking of Alkanes To describe what cracking is and its economic benefits To explain what thermal and catalytic cracking To compare and evaluate the conditions for and the products of thermal and catalytic cracking Lesson 3: Combustion of Alkanes To understand why alkanes are good fuels To recall the complete and incomplete combustions equations (both word and symbol) of alkanes To explain the environmental problems associated with pollutant products when alkanes are used as fuels To explain the use of catalytic convertors and processes such as flue gas desulfurisation to remove gaseous pollutants produced during alkane combustion Lesson 4: Free Radical Substitution of Alkanes 1)To know what a free radical is 2) To describe the reaction mechanism for the free-radical substitution of alkanes including initiation, propagation and termination 3) To analyse the limitations of radical substitution in synthesis by formation of a mixture of organic products Declaimer: Please refrain from purchasing this popular resource for an interview lesson or a formal observation. This is because planning your own lessons, including using your own lesson PowerPoints, is a fundamental skill of a qualified/unqualified teacher that will be assessed during the scenarios outlined above

AS Chemistry Bundle on Foundations in Chemistry. Suitable for AQA, OCR and Edexcel The lessons include: Lesson 1: Relative Masses Define the terms relative atomic mass, relative formula mass and relative molecular mass Calculate the relative formula mass and relative molecular mass of compounds and molecules Lesson 2: Ions and the Periodic Table To predict the ionic charge of ions based on the position of the element in the periodic table To recall the names of common atomic and molecular ions To be able write the formula of ionic compounds Lesson 3: The Mole and The Avogadro Constant Know that the Avogadro constant is the number of particles in a mole Calculate the number of moles present in a given mass of an element or compound using the mole equation Rearrange the mole equation to calculate either the number of moles, Mr or mass of an element or compound Lesson 4: Moles and Equations Know how to balance symbol equations Calculate the moles of reactants or products based on chemical equations and mole ratios Calculate the masses of reactants used or products formed based on chemical equations and mole ratios Lesson 5: Ideal Gas Equation Recall the ideal gas equation 2)Understand the properties of an ideal gas Rearrange the ideal gas equation to determine either pressure, temperature, moles or volume Lesson 6: Empirical and Molecular Formulae Understand what is meant by ‘empirical formula’ and ‘molecular formula’ Calculate empirical formula from data giving composition by mass or percentage by mass Calculate molecular formula from the empirical formula and relative molecular mass. Lesson 7: Percentage Yield and Atom Economy Know how to balance symbol equations Calculate atom economy and percentage yield from balanced symbol equations Calculate the masses and moles of products or reactants from balanced symbol equations Declaimer: Please refrain from purchasing this popular resource for an interview lesson or a formal observation. This is because planning your own lessons, including using your own lesson PowerPoints, is a fundamental skill of a qualified/unqualified teacher that will be assessed during the scenarios outlined above