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After a PhD in Medicinal Chemistry and some time in industry; I finally found my calling as a secondary school teacher in Chemistry. Enjoy! Please review the resources you buy in order for me to improve my teaching and my lessons

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After a PhD in Medicinal Chemistry and some time in industry; I finally found my calling as a secondary school teacher in Chemistry. Enjoy! Please review the resources you buy in order for me to improve my teaching and my lessons
AQA AS level Unit 2 COMPLETE INORGANIC CHEMISTRY: Group 2, 7 , Period 3 - Periodicity
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AQA AS level Unit 2 COMPLETE INORGANIC CHEMISTRY: Group 2, 7 , Period 3 - Periodicity

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AQA AS level Unit 2 COMPLETE INORGANIC CHEMISTRY: Group 2, 7 , Period 3 - Periodicity Using the specification and books No exam questions are included due to copy right 9 LESSONS in total AND PRACTICALS (all answers available) Including: Homework booklets and ANSWERS Assessment sheets Interactive powerpoints (rarely seen in A-level) RSC STARTER FOR 10 CAN BE FOUND ON RSC WEBSITE Section 1: Periodicity AQA AS level Unit 2 Section 1:: Periodicity 3.2.1.1 Classification 3.2.1.2 Physical properties of the Period 3 elements LESSON 1 Objectives: To recap how to classify elements as s, p or d block To describe and understand trends in 1st IE, mpt and bpt of the elements Na - Ar To consolidate learning with exam questions Group 2: Alkaline Earth Metals (A large number of practicals contained within - can be spread over 3 lessons) Unit 2 Section 2: 3.2.2 Group 2, the alkaline earth metals LESSON 1: Chemical and physical properties Objectives: To recap the trends of group 2 metals: atomic radius, 1st ionisation energy and melting point To describe and write equations for the reactions of Mg-Ba with water (PRACTICAL/DEMO) To know the uses of Mg in the extraction of Ti and CaO in removing SO2 from flue gases LESSON 2 + 3 Products and uses Objectives: To know the relative solubilities of group 2 sulfates and hydroxides (PRACTICAL) To know the test for sulfate ions (DEMO AND PRACTICAL TESTING FOR UNKNOWNS) To consolidate with questions Group 7: The Halogens (A large number of practicals contained within - can be spread over 5 lessons) Unit 2 Section 2: 3.2.3.1 Trends in properties and 3.2.3.2 Uses of chlorine and chlorate(I) LESSON 1: PHysical and Chemical properties Objectives: To recap the trends of group 7 elements: atomic radius, electronegativity and melting point To recap halogen displacement reactions from GCSE To understand the trends in oxidising ability of the halogens (displacement reactions) LESSON 2: Reducing abilities of Halogens To understand how halide ions are formed To understand the reducing ability of halide ions To complete a practical to show the reducing power of halides illustrated by reactions of concentrated sulfuric acid LESSON 3: Objectives:Use of acidified silver nitrate to identify halide ions To know how that halide ions are identified by using silver nitrate To understand the trends in solubilities of the silver nitrates in ammonia To complete a practical to test for halide ions using acidified silver nitrate, including the use of ammonia to distinguish the silver halides formed LESSON 4: Required practical 4: L4–A-level Chemistry exemplar for required practical No. 4: To carry out simple test-tube reactions in aqueous solution to identify cations (Group 2, NH4+) and anions (Group 7 (halide), OH-, CO32-, SO42-). Objectives: To recap the ways to identify positive and negative ions To complete a series of test tube reactions to identify some anions and cations To evaluate and consolidate LESSON 5: Uses of Chorine + Chlorate (I) Objectives: To know the reactions of chlorine with water To know the reaction of chlorine with sodium hydroxide and the use of this reaction To evaluate the advantages and disadvantages of adding chemicals to water
AQA AS Level Unit 2 Section 1 Periodicity (Trends in Period 3 and Physical properties)
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AQA AS Level Unit 2 Section 1 Periodicity (Trends in Period 3 and Physical properties)

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AQA AS level Unit 2 Section 1:: Periodicity 3.2.1.1 Classification 3.2.1.2 Physical properties of the Period 3 elements Using the specification and books No exam questions are included due to copy right Including: Homework booklets Assessment sheets Interactive powerpoints (rarely seen in A-level) RSC STARTER FOR 10 CAN BE FOUND ON RSC WEBSITE LESSON 1 Objectives: To recap how to classify elements as s, p or d block To describe and understand trends in 1st IE, mpt and bpt of the elements Na - Ar To consolidate learning with exam questions Homework booklet with answers Leave feedback and enjoy !!
AQA AS level Unit 1/Section 1: Physical chemistry COMPLETE (lessons and worksheets) - atomic structure, amount of substance, bonding, energetics, kinetics, equilibria, REDOX
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AQA AS level Unit 1/Section 1: Physical chemistry COMPLETE (lessons and worksheets) - atomic structure, amount of substance, bonding, energetics, kinetics, equilibria, REDOX

18 Resources
AQA AS level Unit 1 Section 1 Atomic structure (atom, electrons, mass spec, ionisation energies) Including: Homework booklets Assessment sheets Interactive powerpoints (rarely seen in A-level) SECTION 1: Atomic structure FUNDAMENTAL PARTICLES - The atom Atomic models (developing ideas from GCSE) Relative mass, relative atomic mass and atomic number 4 Mass spectrometer Mass spectrum analysis - using mass spectra Electron structure - shells and sub-level (s, p, d, f) Ionisation energies - trends and equations SECTION 2: Amount of Substance 14 lessons in total 1.Masses and Mole Part 1 2.Masses and Mole Part 2 3. Moles in solution 4. Ideal Gas equation part 1 5. Ideal Gas equation part 2 - DEMO 6. Calculation of reacting volumes of gas (EXTRA LESSON - removed from spec) 7. Empirical and Molecular formulea 8. Balancing equations and Ionic equations 9. Reacting masses 10. Atom economy and percentage yield 11. EXTRA LESSON - Limiting reagents (student support IF REQUIRED) 12. Standard solutions 13. Titrations 1 14. REQUIRED PRACTICAL 1 Making a standard solution SECTION 3: Bonding Ionic bonding Metallic bonding Covalent bonding Dative covalent (co-ordinate) bonding 5 + 6 Shapes of molecules 7 Electronegativity and bond polarity 8 + 9 Forces acting between molecules (van de Waals, dipole-dipole and Hydrogen bonding) 10 States of matter and a summary of 4 types of crystal structure - molecular, macromolecular, ionic and metallic SECTION 4: Energetics Endothermic/exothermic Measuring q (Measuring Enthalpy Change) PRACTICAL CHOICES Enthalpy of Formation Enthalpy of Combustion Required Practical Bond Enthalpy SECTION 5: KINETICS Collision theory and rates (GCSE RECAP) Maxwell-Boltzmann distribution 1 Maxwell-Boltzmann distributions 2 REQUIRED PRACTICAL 3 Catalysts SECTION 6: Equilibria Dynamic equilibrium + Le Chatelier’s principle Equilibrium and Industry Equilibrium Constant, Kc Kc - calculating moles and composition To predict the effect, if any, of the changes in conditions on the value of Kc SECTION 7: RedOx ‘oxidation’ and ‘reduction’ and oxidation states and 3. 1/2 equations (oxidising agents and reducing agents) Optional practicals FOR MORE INFORMATION SEE EACH INDIVIDUAL UPLOAD Save 37% buying in bulk
AQA AS Level Unit 1 Section 6 + 7 Equilibria + REDOX-Chemical equilibria, Le Chatelier’s principle, oxidation states, oxidation, reduction, ionic and Kc
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AQA AS Level Unit 1 Section 6 + 7 Equilibria + REDOX-Chemical equilibria, Le Chatelier’s principle, oxidation states, oxidation, reduction, ionic and Kc

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AQA AS Level Unit 1 Section 6 Equilibria-Catalysts, Chemical equilibria, Le Chatelier’s principle and Kc AQA AS Level Unit 1 Section 7 Oxidation, reduction + REDOX equations unit- Ionic, oxidation states Using the specification and books No exam questions are included due to copy right Including: Homework booklets Assessment sheets Interactive powerpoints (rarely seen in A-level) RSC STARTER FOR 10 CAN BE FOUND ON RSC WEBSITE Unit 1 Section 6: 3.1.6 Chemical equilibria, Le Chatelier’s principle and Kc 3.1.6.1 Chemical equilibria and Le Chatelier’s principle LESSON 1: Objectives: To understand how reversible reactions can reach a state of dynamic equilibrium To understand Le Chatelier’s principle To apply Le Chatelier’s principle to reversible reactions LESSON 2: Equilibrium and Industry Objectives: To explain why compromises are made for the production of ammonia To explain why compromises are made for the production of Ethanol To explain why compromises are made for the production of Methanol Unit 1 Section 6: 3.1.6 Chemical equilibria, Le Chatelier’s principle and Kc 3.1.6.2 Equilibrium constant Kc for homogeneous systems LESSON 3: Objectives: To understand what the Equilibrium Constant, Kc is To write an expression for Kc including units To calculate Kc including units LESSON 4: Objectives: To understand how to work out moles at equilibrium To calculate Kc after calculating moles To know how to use Kc to work out the composition of an equilibrium mixture To know how to use Kc to calculate the amount of reactant needed LESSON 5: Objectives: To predict the effect, if any, of the changes in conditions on the value of Kc To predict qualitatively how the value of Kc will change, if at all, as the position of an equilibrium moves as conditions are changed To consolidate learning AQA AS Level Unit 1 Section 7 Oxidation, reduction + REDOX equations unit- Ionic, oxidation states Using the specification and books No exam questions are included due to copy right Including: Homework booklets Assessment sheets Interactive powerpoints (rarely seen in A-level) RSC STARTER FOR 10 CAN BE FOUND ON RSC WEBSITE Fully explained methods for ionic equations and all answers explained in great detail - all about oxidation states and ionic reactions a large amount of work has been put in to ensure everything is explained to the highest standards. Oxidation, reduction + REDOX equations unit- Ionic, oxidation states: LESSON 1: Objectives: To recap what is meant by ‘oxidation’ and ‘reduction’ To know what an oxidation state is To be able to calculate an oxidation state of an element in a compound LESSON 2 + 3 Objectives: To be able to write half equations from balanced equations To be able to combine half equations to make the overall balanced redox equation To understand the terms oxidising agent and reducing agent LESSON 4: Optional practicals (2p) Homework booklet with answers Leave feedback and enjoy !!
AQA AS Level Unit 1 Section 6 Equilibria-Chemical equilibria, Le Chatelier’s principle and Kc
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AQA AS Level Unit 1 Section 6 Equilibria-Chemical equilibria, Le Chatelier’s principle and Kc

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AQA AS Level Unit 1 Section 6 Equilibria-Catalysts, Chemical equilibria, Le Chatelier’s principle and Kc Using the specification and books No exam questions are included due to copy right Including: Homework booklets Assessment sheets Interactive powerpoints (rarely seen in A-level) RSC STARTER FOR 10 CAN BE FOUND ON RSC WEBSITE Unit 1 Section 6: 3.1.6 Chemical equilibria, Le Chatelier’s principle and Kc 3.1.6.1 Chemical equilibria and Le Chatelier’s principle LESSON 1: Objectives: To understand how reversible reactions can reach a state of dynamic equilibrium To understand Le Chatelier’s principle To apply Le Chatelier’s principle to reversible reactions LESSON 2: Equilibrium and Industry Objectives: To explain why compromises are made for the production of ammonia To explain why compromises are made for the production of Ethanol To explain why compromises are made for the production of Methanol Unit 1 Section 6: 3.1.6 Chemical equilibria, Le Chatelier’s principle and Kc 3.1.6.2 Equilibrium constant Kc for homogeneous systems LESSON 3: Objectives: To understand what the Equilibrium Constant, Kc is To write an expression for Kc including units To calculate Kc including units LESSON 4: Objectives: To understand how to work out moles at equilibrium To calculate Kc after calculating moles To know how to use Kc to work out the composition of an equilibrium mixture To know how to use Kc to calculate the amount of reactant needed LESSON 5: Objectives: To predict the effect, if any, of the changes in conditions on the value of Kc To predict qualitatively how the value of Kc will change, if at all, as the position of an equilibrium moves as conditions are changed To consolidate learning Homework booklet with answers Leave feedback and enjoy !!
AQA AS Level Unit 1 Section 5 Kinetics -Collision theory, Maxwell-Boltzmann distribution, catalysts
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AQA AS Level Unit 1 Section 5 Kinetics -Collision theory, Maxwell-Boltzmann distribution, catalysts

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AQA AS Level Unit 1 Section 5 Kinetics -Collision theory, Maxwell-Boltzmann distribution, catalysts Using the specification and books No exam questions are included due to copy right Including: Homework booklets Assessment sheets Interactive powerpoints (rarely seen in A-level) RSC STARTER FOR 10 CAN BE FOUND ON RSC WEBSITE Unit 1 Section 5: 3.1.5 Kinetics 3.1.5.1 Collision theory LESSON 1: Objectives: To recall why reactions take place To be able to calculate rates from a graph To define the term activation energy and understand the significance Unit 1 Section 5: 3.1.5 Kinetics 3.1.5.2 Maxwell–Boltzmann distribution 3.1.5.3 Effect of temperature on reaction rate LESSON 2: Objectives: To interpret and draw Maxwell-Boltzmann distribution To explain how temperature affects the number of molecules with energy equal to or more than the activation energy To use the collision theory to explain the effect of temperature on the rate of reaction Unit 1 Section 5: 3.1.5 Kinetics 3.1.5.3 Effect of temperature on reaction rate PART OF IT 3.1.5.4 Effect of concentration and pressure LESSON 3: Objectives: To complete worksheets on Maxwell-Boltzmann distributions To use collision theory, including diagrams to explain why an increase in solution concentration/pressure leads to an increase in reaction rate To draw Maxwell-Boltzmann distributions for concentration and pressure Unit 1 Section 5: 3.1.5 Kinetics 3.1.5.3 Effect of temperature on reaction rate 2nd part LESSON 4: REQUIRED PRACTICAL 3 Objectives: To understand how to measure rates of reaction To investigate how the rate of the reaction of sodium thiosulfate with hydrochloric acid changes as the temperature of the reaction is changed. To evaluate the practical Unit 1 Section 5: 3.1.5 Kinetics 3.1.5.5 Effect of catalysts LESSON 5: Catalysts OBJECTIVES Objectives: To define the term catalyst To draw a reaction profile to show the impact of a catalyst on Ea To draw a Maxwell-Boltzmann distribution curve to and use it to explain how a catalyst increases reaction rate Homework booklet with answers Leave feedback and enjoy !!
AQA AS and A level REQUIRED PRACTICAL Teacher Checklists and marking criteria
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AQA AS and A level REQUIRED PRACTICAL Teacher Checklists and marking criteria

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AQA AS and A level REQUIRED PRACTICAL Teacher Checklists Common Practical Assessment Criteria These documents allow you to write your class list across the top and mark the criteria during the lesson and after the lesson EITHER: RED, AMBER and GREEN assessment Tick/cross method 1-10 marking can be used to see how successful the student is as the specific CPAC. PRACTICAL 1: Make up a volumetric solution and carry out a simple acid-base titration PRACTICAL 2: Measurement of an enthalpy change PRACTICAL 3: Investigation of how the rate of a reaction changes with temperature PRACTICAL 4: Carry out simple test-tube reactions to identify cations and anions in aqueous solution PRACTICAL 5: Distillation of a product from a reaction PRACTICAL 6: Tests for alcohol, aldehyde, alkene and carboxylic acid PRACTICAL 7a: Measuring the rate of reaction by an initial rate method PRACTICAL 7b: Measuring the rate of reaction by a continuous monitoring method PRACTICAL 8: Measuring the EMF of an electrochemical cell PRACTICAL 9: Investigate how pH changes when a weak acid reacts with a strong base and when a strong acid reacts with a weak base PRACTICAL 10a: Preparation of an organic solid and a test of its purity PRACTICAL 10b: Preparation of a pure organic liquid PRACTICAL 11: Carry out simple test-tube reactions to identify transition metal ions in aqueous solution PRACTICAL 12: Separation of species by thin-layer chromatography EXPLAINING CPAC: In order to achieve a pass, students will need to have met the following expectations. Students will be expected to develop these competencies through the acquisition of the technical skills specified in Appendix 5 of the DfE subject content for each science subject Biology, Chemistry and Physics. Students can demonstrate these competencies in any practical activity undertaken throughout the course of study. The 12 practical activities prescribed in the subject specification, which cover the requirements of Appendix 5c, will provide opportunities for demonstrating competence in all the skills identified together with the use of apparatus and practical techniques for each subject. Students may work in groups but must be able to demonstrate and record independent evidence of their competency. This must include evidence of independent application of investigative approaches and methods to practical work. Teachers who award a pass to their students need to be confident that the student consistently and routinely exhibits the competencies listed below before completion of the A level course.
AQA AS Level Unit 1 Section 4 Energetics -Hess's Law, Bond enthalpy,Enthalpy Change, Endo Exothermic
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AQA AS Level Unit 1 Section 4 Energetics -Hess's Law, Bond enthalpy,Enthalpy Change, Endo Exothermic

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AQA AS Level Unit 1 Section 4 Energetics -Hess’s Law, Bond enthalpy, Enthalpy Change, Endothermic, Exothermic Using the specification and books No exam questions are included due to copy right Including: Homework booklets Assessment sheets Interactive powerpoints (rarely seen in A-level) RSC STARTER FOR 10 CAN BE FOUND ON RSC WEBSITE Unit 1 Section 4: 3.1.4 Energetics # 3.1.4.1 Enthalpy change Endothermic and Exothermic Reaction Basics LESSON 1: Objectives: To know the reactions can be exothermic or endothermic To know what an enthalpy change is To define standard enthalpies or formation and combustion Unit 1 Section 4: 3.1.4 Energetics 3.1.4.2 Calorimetry Measuring Enthalpy Change LESSON 2: Objectives: To define specific heat capacity To describe how you measure enthalpy changes more accurately To calculate the enthalpy of a reaction LESSON 3: Objectives: PRACTICAL CHOICES To investigate the enthalpies change of a neutralisation reaction and allow for heat loss. To investigate the enthalpies change of a displacement reaction and allow for heat loss. To investigate the enthalpies change of a combustion reaction and allow for heat loss. Unit 1 Section 4: 3.1.4 Energetics 3.1.4.3 Applications of Hess’s law LESSON 4: Enthalpy of Formation Objectives: To understand the term Hess’s Law To construct simple energy cycles To carry out calculations using the enthalpy of formation LESSON 5: Enthalpy of Combustion To recall all definitions To carry out calculation using enthalpy of combustion To consolidate learning with exam style questions Unit 1 Section 4: 3.1.4 Energetics 3.1.4.3 Applications of Hess’s law – REQUIRED PRACTICAL 2 LESSON 6: Required Practical To understand what method to research To determine an enthalpy change which cannot be measured directly. To calculate the enthalpy change of the reaction Unit 1 Section 4: 3.1.4 Energetics 3.1.4.4 Bond enthalpies LESSON 7: Bond Enthalpy To understand the term mean bond enthalpy To use the mean bond enthalpies to calculate approximate values for ∆H for reactions To consolidate with exam questions Homework booklet with answers Leave feedback and enjoy !!
AQA AS Level Unit 2 Section 2 Group 7 elements - The halogens:  trends,halide,  required prac 4,
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AQA AS Level Unit 2 Section 2 Group 7 elements - The halogens: trends,halide, required prac 4,

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AQA AS Level Unit 2 Section 2 Group 7 - the halogens - trends, solubility, test ion, required practical 4, halide ions, oxidising and reducing ability Using the specification and books No exam questions are included due to copy right Including: Homework booklets Assessment sheets Interactive powerpoints (rarely seen in A-level) RSC STARTER FOR 10 CAN BE FOUND ON RSC WEBSITE Group 7: The Halogens (A large number of practicals contained within - can be spread over 5 lessons) Unit 2 Section 2: 3.2.3.1 Trends in properties and 3.2.3.2 Uses of chlorine and chlorate(I) LESSON 1: PHysical and Chemical properties Objectives: To recap the trends of group 7 elements: atomic radius, electronegativity and melting point To recap halogen displacement reactions from GCSE To understand the trends in oxidising ability of the halogens (displacement reactions) LESSON 2: Reducing abilities of Halogens To understand how halide ions are formed To understand the reducing ability of halide ions To complete a practical to show the reducing power of halides illustrated by reactions of concentrated sulfuric acid LESSON 3: Objectives:Use of acidified silver nitrate to identify halide ions To know how that halide ions are identified by using silver nitrate To understand the trends in solubilities of the silver nitrates in ammonia To complete a practical to test for halide ions using acidified silver nitrate, including the use of ammonia to distinguish the silver halides formed LESSON 4: Required practical 4: L4–A-level Chemistry exemplar for required practical No. 4: To carry out simple test-tube reactions in aqueous solution to identify cations (Group 2, NH4+) and anions (Group 7 (halide), OH-, CO32-, SO42-). Objectives: To recap the ways to identify positive and negative ions To complete a series of test tube reactions to identify some anions and cations To evaluate and consolidate LESSON 5: Uses of Chorine + Chlorate (I) Objectives: To know the reactions of chlorine with water To know the reaction of chlorine with sodium hydroxide and the use of this reaction To evaluate the advantages and disadvantages of adding chemicals to water Homework booklet with answers Leave feedback and enjoy !!
AQA AS Level Unit 2 Section 2 Group 2 elements  alkaline earth metals - trends, solubility, test ion
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AQA AS Level Unit 2 Section 2 Group 2 elements alkaline earth metals - trends, solubility, test ion

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AQA AS Level Unit 2 Section 2 Group 2 elements alkaline earth metals - trends, solubility, test ion Using the specification and books No exam questions are included due to copy right Including: Homework booklets Assessment sheets Interactive powerpoints (rarely seen in A-level) RSC STARTER FOR 10 CAN BE FOUND ON RSC WEBSITE Group 2: Alkaline Earth Metals (A large number of practicals contained within - can be spread over 3 lessons) Unit 2 Section 2: 3.2.2 Group 2, the alkaline earth metals LESSON 1: Chemical and physical properties Objectives: To recap the trends of group 2 metals: atomic radius, 1st ionisation energy and melting point To describe and write equations for the reactions of Mg-Ba with water (PRACTICAL/DEMO) To know the uses of Mg in the extraction of Ti and CaO in removing SO2 from flue gases LESSON 2 + 3 Products and uses Objectives: To know the relative solubilities of group 2 sulfates and hydroxides (PRACTICAL) To know the test for sulfate ions (DEMO AND PRACTICAL TESTING FOR UNKNOWNS) To consolidate with questions Homework booklet with answers Leave feedback and enjoy !! Read less
AQA AS Level Unit 1 Section 7 Oxidation, reduction + REDOX equations unit- Ionic, oxidation states
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AQA AS Level Unit 1 Section 7 Oxidation, reduction + REDOX equations unit- Ionic, oxidation states

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AQA AS Level Unit 1 Section 7 Oxidation, reduction + REDOX equations unit- Ionic, oxidation states Using the specification and books No exam questions are included due to copy right Including: Homework booklets Assessment sheets Interactive powerpoints (rarely seen in A-level) RSC STARTER FOR 10 CAN BE FOUND ON RSC WEBSITE Fully explained methods for ionic equations and all answers explained in great detail - all about oxidation states and ionic reactions a large amount of work has been put in to ensure everything is explained to the highest standards. Oxidation, reduction + REDOX equations unit- Ionic, oxidation states: LESSON 1: Objectives: To recap what is meant by ‘oxidation’ and ‘reduction’ To know what an oxidation state is To be able to calculate an oxidation state of an element in a compound LESSON 2 + 3 Objectives: To be able to write half equations from balanced equations To be able to combine half equations to make the overall balanced redox equation To understand the terms oxidising agent and reducing agent LESSON 4: Optional practicals (2p) Homework booklet with answers Leave feedback and enjoy !!
AQA AS level Unit 3 Section 3 Alkenes
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AQA AS level Unit 3 Section 3 Alkenes

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AQA AS level Unit 3 Section 3: 3.3.4 Alkenes Using the specification and books No exam questions are included due to copy right Including: Homework booklets Assessment sheets Interactive powerpoints (rarely seen in A-level) RSC STARTER FOR 10 CAN BE FOUND ON RSC WEBSITE Alkenes section Introduction to alkenes Lesson 1: Objectives: To recall what alkenes are To understand what isomerism do alkenes display To explain why alkenes are reactive Electrophilic addition Lesson 2: Objectives: To understand what electrophilic addition reactions are To understand the reactions of alkenes with different electrophiles To understand what happens with asymmetrical alkenes Additional Polymerisation Lesson 3: Objectives: To recall the terms polymer, monomer and polymerisation To explain additional polymerisation reactions To know some uses of polymers Mechanism recap Lesson 4: no powerpoint just questions Leave feedback and enjoy !!
AQA AS level Unit 3 Section 2 Alkanes and Haloalkanes
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AQA AS level Unit 3 Section 2 Alkanes and Haloalkanes

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AQA AS level Unit 3 Section 2 Alkanes and Haloalkanes Using the specification and books No exam questions are included due to copy right Including: Homework booklets Assessment sheets Interactive powerpoints (rarely seen in A-level) Alkanes section Introduction to alkanes (naming recap, crude oil and properties) Fractional distillation (crude oil, fractional distillation, separation, uses, properties) LESSON 1: Objectives: To state the definition of an alkane To explain how alkanes are named To describe the properties of alkanes LESSON 2: Objectives: To state the origin of crude oil and the compounds contained within it To understand how fractional distillation works To be able to identify the differences between each fraction LESSON 3: Objectives: To know what cracking is To compare the conditions and products of THERMAL and CATALYTIC cracking To know the economic reasons for cracking LESSON 4: Objectives: To recall what happens in complete combustion To recall what happens in incomplete combustion To know the problems associated with the internal combustion engine LESSON 5: To understand how pollutant emissions can be reduced To recall what happens in the greenhouse effect To consolidate learning with questions Haloalkane Formation of haloalkanes from alkanes - chain reactions Haloalkanes introduction Nucleophillic substitution Elimination Ozone and CFC LESSON 6: FROM ALKANE SECTION Objectives: To define what a radical is To describe the reaction mechanism for free radical substitution of methane To understand that there can be other products of a chain reaction LESSON 1: FROM HALOALKANE SECTION Objectives: To recap how to name the haloalkanes To understand the properties To understand the reactivity of the C-X bond by using bond polarity and bond enthalpy LESSON 2: To understand what nucleophiles are To understand what nucleophilic substitution is To be able to give examples of nucleophilic substitution reactions LESSON3: To understand what an elimination reaction is To understand when conditions favour elimination rather than substitution To understand when and how isomeric alkenes are formed LESSON4: To understand the role of ozone in the atmosphere To understand how chlorine free radicals can be formed in the atmosphere and how they destroy ozone To explain how research evidence led to the end of use of CFCs and alternatives found
AQA AS level Unit 3 Section 2 Haloalkanes -formation, chain reactions, nucleophilic substitution,
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AQA AS level Unit 3 Section 2 Haloalkanes -formation, chain reactions, nucleophilic substitution,

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AQA AS level Unit 3 Section 2 Haloalkanes Using the specification and books No exam questions are included due to copy right Including: Homework booklets Assessment sheets Interactive powerpoints (rarely seen in A-level) Starter for 10 found on RSC website Haloalkane Formation of haloalkanes from alkanes - chain reactions Haloalkanes introduction Nucleophillic substitution Elimination Ozone and CFC LESSON 6: FROM ALKANE SECTION Objectives: To define what a radical is To describe the reaction mechanism for free radical substitution of methane To understand that there can be other products of a chain reaction LESSON 1: FROM HALOALKANE SECTION Objectives: To recap how to name the haloalkanes To understand the properties To understand the reactivity of the C-X bond by using bond polarity and bond enthalpy LESSON 2: To understand what nucleophiles are To understand what nucleophilic substitution is To be able to give examples of nucleophilic substitution reactions LESSON3: To understand what an elimination reaction is To understand when conditions favour elimination rather than substitution To understand when and how isomeric alkenes are formed LESSON4: To understand the role of ozone in the atmosphere To understand how chlorine free radicals can be formed in the atmosphere and how they destroy ozone To explain how research evidence led to the end of use of CFCs and alternatives found ENJOY!!! Please rate and comment in order to further improve Read less
AQA AS level Unit 3 Section 2 Alkanes Lesson 3 + 4 Cracking of alkanes and combustion (3 lessons)
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AQA AS level Unit 3 Section 2 Alkanes Lesson 3 + 4 Cracking of alkanes and combustion (3 lessons)

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AQA AS level Unit 3 Section 2 Alkanes Lesson 1 + 2 Alkane introduction + fractional distillation See https://www.tes.com/teaching-resource/aqa-as-level-unit-3-section-2-alkanes-lesson-1-2-alkane-introduction-fractional-distillation-11707276 Lesson 3 + 4 Cracking of alkanes and combustion (3 lessons) here Using the specification and books No exam questions are included due to copy right Including: Homework booklets Assessment sheets Interactive powerpoints (rarely seen in A-level) Starter for 10 free from RSC Alkane Cracking Combustion LESSON 3: Objectives: To know what cracking is To compare the conditions and products of THERMAL and CATALYTIC cracking To know the economic reasons for cracking LESSON 4: Objectives: To recall what happens in complete combustion To recall what happens in incomplete combustion To know the problems associated with the internal combustion engine LESSON 5: To understand how pollutant emissions can be reduced To recall what happens in the greenhouse effect To consolidate learning with questions ENJOY!!! Please rate and comment in order to further improve
AQA AS level Unit 1 Section 2: Amount of substance complete lesson package, homework and assessments
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AQA AS level Unit 1 Section 2: Amount of substance complete lesson package, homework and assessments

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Using the specification and books No exam questions are included due to copy right (unless written out by myself) Including: Homework booklets Assessment sheets Interactive powerpoints (rarely seen in A-level) STUDENT WORKBOOK FOR REQUIRED PRACTICAL FOUND HERE IF REQUIRED https://www.tes.com/teaching-resource/aqa-a-level-chemistry-required-practical-tracking-booklet-competencies-12051709 14 lessons in total 1.Masses and Mole Part 1 2.Masses and Mole Part 2 3. Moles in solution 4. Ideal Gas equation part 1 5. Ideal Gas equation part 2 - DEMO 6. Calculation of reacting volumes of gas (EXTRA LESSON - removed from spec) 7. Empirical and Molecular formulea 8. Balancing equations and Ionic equations 9. Reacting masses 10. Atom economy and percentage yield 11. EXTRA LESSON - Limiting reagents (student support IF REQUIRED) 12. Standard solutions 13. Titrations 1 14. REQUIRED PRACTICAL 1 Making a standard solution To state the definition for relative atomic mass in terms of carbon-12 and calculate Ar To state the definition for relative molecular mass in terms of carbon 12 and calculate Mr To understand the concept of the mole and Avogadro’s constant To understand the term molar mass To use Avogadro constant to calculate the number of atoms or molecules To use Avogadro constant to calculate the number of molecules or atoms from mass To understand the term concentration To be able to calculate concentrations in a given volume of solution To be able to calculate the concentration in mol dm-3 from the mass To understand the gas laws To recognise and make use of appropriate units in ideal gas calculations To carry out calculations using the ideal gas equation To complete a practical to find the relative molecular mass of the lighter fuel To find the relative molecular mass of the lighter fuel using the ideal gas equation To complete exam questions To know how to define molar volume of gases at room temperature and pressure To be able to use the molar volume in calculations involving the masses of solids and volumes of gases To understand how to use Avogadro’s law to calculate volumes of gases involved in gaseous reactions. To know the terms molecular and empirical formula To be able to deduce the molecular formula of a compound from its empirical formula and its relative molecular mass To find empirical formula from data giving composition by mass or percentage by mass To recall how to balance equations To be able to separate aqueous compounds into ions in order to write ionic equations To be able to write balanced ionic equations To complete a 10 question check up To be able to calculate the amount of product from a given reactant To know how to consolidate learning with questions after completing a practical 10.To understand the difference between the actual yield and the theoretical yield To be able to calculate the percentage yield of a reaction from the actual yield and the theoretical yield using moles To calculate atom economy Industrial processes To understand the term ‘limiting reagent’ To be able to identify the limiting reactant in a reaction To be able to calculate the mass of the reactant from the limiting reactant using moles To recall ways in which neutralisation can occur To know the term standard solution To understand how to make a standard solution To understand how to carry out an acid and alkali titration To be able to carry out a titration To be able to carry out calculations using the results of titrations to calculate an unknown concentration of solution or unknown volume of solution Required practical 1 Make up a volumetric solution and carry out a simple acid–base titration ENJOY! AQA AS level Unit 2 Amount of substance complete lessons, homework + assessments REQUIRED PRACTICAL
AQA AS level Unit 1 Section 2: Amount of substance standard + titration neutraliseREQUIRED PRACTICAL
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AQA AS level Unit 1 Section 2: Amount of substance standard + titration neutraliseREQUIRED PRACTICAL

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AQA AS level Unit 1 section 2 Amount of substance complete lesson package, homework and assessments Using the specification and books No exam questions are included due to copy right (unless written out by myself) Including: Homework booklets Assessment sheets Interactive powerpoints (rarely seen in A-level) STUDENT WORKBOOK FOR REQUIRED PRACTICAL FOUND HERE IF REQUIRED https://www.tes.com/teaching-resource/aqa-a-level-chemistry-required-practical-tracking-booklet-competencies-12051709 Standard solutions Titrations 1 REQUIRED PRACTICAL 1 Making a standard solution To recall ways in which neutralisation can occur To know the term standard solution To understand how to make a standard solution To understand how to carry out an acid and alkali titration To be able to carry out a titration To be able to carry out calculations using the results of titrations to calculate an unknown concentration of solution or unknown volume of solution Required practical 1 Make up a volumetric solution and carry out a simple acid–base titration
AQA AS level Unit 1 section 2 Amount of substance Calculations masses, atom economy, yield, ionic,
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AQA AS level Unit 1 section 2 Amount of substance Calculations masses, atom economy, yield, ionic,

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AQA AS level Unit 1 section 2 Amount of substance complete lesson package, homework and assessments Using the specification and books No exam questions are included due to copy right (unless written out by myself) Including: Homework booklets Assessment sheets Interactive powerpoints (rarely seen in A-level) STUDENT WORKBOOK FOR REQUIRED PRACTICAL FOUND HERE IF REQUIRED https://www.tes.com/teaching-resource/aqa-a-level-chemistry-required-practical-tracking-booklet-competencies-12051709 Calculation of reacting volumes of gas (EXTRA LESSON - removed from spec) Empirical and Molecular formulea Balancing equations and Ionic equations Reacting masses Atom economy and percentage yield EXTRA LESSON - Limiting reagents (student support IF REQUIRED) To know how to define molar volume of gases at room temperature and pressure To be able to use the molar volume in calculations involving the masses of solids and volumes of gases To understand how to use Avogadro’s law to calculate volumes of gases involved in gaseous reactions. To know the terms molecular and empirical formula To be able to deduce the molecular formula of a compound from its empirical formula and its relative molecular mass To find empirical formula from data giving composition by mass or percentage by mass To recall how to balance equations To be able to separate aqueous compounds into ions in order to write ionic equations To be able to write balanced ionic equations To complete a 10 question check up To be able to calculate the amount of product from a given reactant To know how to consolidate learning with questions after completing a practical 10.To understand the difference between the actual yield and the theoretical yield To be able to calculate the percentage yield of a reaction from the actual yield and the theoretical yield using moles To calculate atom economy Industrial processes To understand the term ‘limiting reagent’ To be able to identify the limiting reactant in a reaction To be able to calculate the mass of the reactant from the limiting reactant using moles
AQA AS level Unit 1 section 2: Amount of substance ideal gas equation, gas laws homework + assess
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AQA AS level Unit 1 section 2: Amount of substance ideal gas equation, gas laws homework + assess

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AQA AS level Unit1 section2 Amount of substance complete lesson package, homework and assessments Using the specification and books No exam questions are included due to copy right (unless written out by myself) Including: Homework booklets Assessment sheets Interactive powerpoints (rarely seen in A-level) STUDENT WORKBOOK FOR REQUIRED PRACTICAL FOUND HERE IF REQUIRED https://www.tes.com/teaching-resource/aqa-a-level-chemistry-required-practical-tracking-booklet-competencies-12051709 Ideal Gas equation part 1 Ideal Gas equation part 2 - DEMO To understand the gas laws To recognise and make use of appropriate units in ideal gas calculations To carry out calculations using the ideal gas equation To complete a practical to find the relative molecular mass of the lighter fuel To find the relative molecular mass of the lighter fuel using the ideal gas equation To complete exam questions
AQA AS level Unit 1 section 2 Amount of substance - moles in solution lesson, homework + assessments
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AQA AS level Unit 1 section 2 Amount of substance - moles in solution lesson, homework + assessments

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AQA AS level Unit 1 section 2 Amount of substance complete lesson package, homework and assessments Using the specification and books No exam questions are included due to copy right (unless written out by myself) Including: Homework booklets Assessment sheets Interactive powerpoints (rarely seen in A-level) STUDENT WORKBOOK FOR REQUIRED PRACTICAL FOUND HERE IF REQUIRED https://www.tes.com/teaching-resource/aqa-a-level-chemistry-required-practical-tracking-booklet-competencies-12051709 Moles in solution 3. To understand the term concentration To be able to calculate concentrations in a given volume of solution To be able to calculate the concentration in mol dm-3 from the mass