3 homework projects for the Exploring Science 8 and 9 schemes of work on Heating and Cooling, Energy and Electricity and Pressure Each project comes with a level ladder style success grid for students to maximise their learning

Three homework projects for the Exploring Science 7 scheme of work on Energy Resources, Recycling and Electrical Circuits. Each project comes with a level ladder style success grid for students to maximise their learning

A series of three lessons prepared for the AQA GCSE C3.2 unit of work about hard and soft water, the process of water softening and the purification of water. Includes PowerPoints, lesson plans, practicals, activities, worksheets, exam questions and videos to accompany the topic.

These sheets ask questions which when answered summarise the whole of the iGCSE Chemistry course, with one sheet per topic. They can be used one at a time, at the end of a topic, or at the end of the year as a revision resource Obviously they don´t go into as much detail as past paper questions but they do provide a basic summary of questions that students must know the answers to in each topic The answers to this exercise are now also available in my shop

A series of four lessons prepared for the AQA GCSE C3.4 unit of work about qualitative and quantitative analysis. Lessons on cation and anion testing, titrations and how to calculate the concentration of a solution Includes PowerPoints, lesson plans, practicals, activities, worksheets and exam questions to accompany the topic.

This unit was planned as part of the Chemistry IB Option B - Biochemistry scheme of work, and covers the topics in B.2 and B.7 It includes 2 full PowerPoints, along with a student versions to use as notes, which has spaces for the students to add in missing information and activities for them to complete. It also includes exam questions for practice or assessment purposes Topics covered are: - 2 amino acids and their behaviour as zwitterions - Gel electrophoresis - Paper chromatography - Peptides - Hydrolysis of peptides - Proteins - primary, secondary, tertiary and quaternary structures - Acid-base properties of amino acids and proteins - Acid-base buffers - Enzymes - Induced fit theory - Non competitive and competitive inhibition - The Michaelis-Menten equation - Protein Assays Also available in my Shop as part of a bundle of Biochemistry resources, which between them cover all the information needed for the IB Option B syllabus - heavily discounted!

This unit was planned as part of the iGCSE metals and metal extraction scheme of work. The unit contains powerpoints, experiments, worksheets, activities and an assessment. Topics covered include: - Properties and uses of metals - Reactions of metals with water, oxygen and acid - Reactivity Series - Extraction of metals - The Blast Furnace - Alloys and Steel - Electrolysis of molten substances and aqueous solutions - Extraction of Aluminium - Electrolysis of brine - Purification of copper

These 3 PowerPoints were planned as part of the IB schemes of work on Energy. They would also be suitable for other post-16 courses. Included are fully completed PowerPoints, student versions of the PowerPoints with sections to complete independently and some exam style questions. Topics covered include: - The difference between heat and temperature - Endothermic and Exothermic reactions - Stability and enthalpy changes - Standard enthalpy change of reaction (ΔHΘr) - Measuring Standard enthalpy change of combustion (ΔHΘc) including calculations - Measuring enthalpy changes in solution including calculations - Hess´Law - Standard Enthalpy Change of Formation (ΔHΘf) - Bond Enthalpies and Average Bond Enthalpies - Born Haber Cycles - Comparison of Lattice Enthalpies - Dissolving Ionic Substances - Hydration Enthalpies

These two PowerPoints were planned as part of the IB scheme of work on Equilibria, and cover the necessary content for both the Standard and Higher Level topics. It would also be suitable for other post-16 courses. Included are fully completed PowerPoints, student versions of the PowerPoints with sections to complete independently and some exam style questions. Topics included are: - The difference between reversible reactions and equilibria - Dynamic equilibrium and the characteristic of the equilibrium state - Physical equlibria - What is meant by the term ´position of equilibrium´ - Le Chatelier´s Principle - Effect of temperature on the position of equilibrium - Effect of pressure on the position of equilibrium - Effect of concentration on the position of equilibrium - Effect of a catalyst on the position of equilibrium - The General Equilibrium Law - Calculating the equilibrium constant - The reaction quotient - Effect of changing reaction conditions on Kc - Calculating the equilibrium constant from the number of moles of reaction components - Calculating the concentrations of reaction components from the equilibrium constant - Explaining the effect of changes in concentration on Kc - Explaining the effect of changes in pressure on Kc - The relationship between equilibrium and Gibbs Free Energy - Calculating Kp

These PowerPoints were planned as part of the IB scheme of work on Atomic Structure, and cover the necessary content for both the Standard and Higher Level topics. It would also be suitable for other post-16 courses. Included are fully completed PowerPoints, student versions of the PowerPoints with sections to complete independently and some exam style questions. Topics included are: - The structure of the atom - The development of the theory of atomic structure from Dalton-present day - Isotopes and their properties - Calculating the R.A.M. of an isotope - Calculating the % abundance of two isotopes, given the R.A.M. - Radioisotopes and their uses - The mass spectrometer: what it is used for, how it works, why it works and how to read mass spectra - How to calculate the energy of a photon of light - Atomic Emission Spectra - How to write full electronic configurations for elements up to the 4p orbital - How to write full electronic configurations for ions of the elements up to the 4p orbital - The convergence limit of energy in energy levels and how this links to First Ionisation Energy - Trends in First Ionisation Energy and how this provided evidence for the presence of orbitals

This booklet and accompanying PowerPoints covers the Moles topic for iGCSE Chemistry. It would also be useful for other courses, as it covers all of the topics in the list below. The booklet is designed to be interactive and to be filled in by the students, accompanied by the PowerPoints. It includes spaces for worked calculations, exercises, past paper questions (taken from the Cambridge iGCSE papers) and two practicals. The answers to the exercises are also provided for the workbook and are shown on the PowerPoints. What exactly is a mole? How can we convert between masses and moles? How do we deal with diatomic molecules? Converting between mass and moles in compounds Calculating the % by mass of an element in a compound Balancing Equations Reacting Masses Limiting Reagents Percentage Yield Practical - How much copper sulphate can we get from malachite? Percentage Purity Empirical Formula Moles in Gases Moles in Solutions Titrations Practical – What is the concentration of sodium hydroxide? I also have another scheme of work where this booklet has been altered slightly for the Co-ordinated Science Chemistry moles unit.

These four PowerPoints were planned as part of the IB scheme of work on Kinetics, and cover the necessary content for both the Standard and Higher Level topics. It would also be suitable for other post-16 courses. Included are fully completed PowerPoints, student versions of the PowerPoints with sections to complete independently and some exam style questions. Topics included are: - What is rate of reaction? - Methods of measuring the rate of reaction - Collision Theory - The effect of temperature, concentration, pressure, surface area and catalysts on the rate of reaction - Maxwell-Boltzmann distribution curves - The effect of temperature on Maxwell-Boltzmann distribution curves - The rate constant and rate equation - Determining the order of reaction from experimental data - Characteristics of 0, 1st and 2nd order reactions - Using reaction mechanisms to identify the rate determining step - Using the rate determining step to determine the reaction mechanism of a reaction - Mechanisms of reactions involving catalysts - The Arrenhius Equation - Determining the activation energy of a reaction via line of best fit and equation methods - Effect of activation energy on the rate of reaction - Effect of a catalyst on the Arrenhius equation

This unit was delivered to cover unit 9 of the IB -Redox Processes, however it would be suitable for most post-16 programs of study. It begins by recapping the subjects that students should be familiar with from GCSE, before building into more advanced topics. Each PowerPoint comes with a ´student version´ which has gaps for the students to complete, and contains several exercises for students to do. I have also included past paper questions and answer schemes. Topics covered are: Reduction and Oxidation Oxidation states and how to determine them Naming compounds using oxidation states Oxidising and reducing agents Half equations in molten substances Half equations in acidic solutions The activity series Redox titrations Winkler method to determine biochemical oxygen demand Voltaic Cells Electrolytic Cells Cell potentials The standard hydrogen electrode Ecell and spontaneity Working out cell potentials Polarity and direction of electron flow The electrochemical series Electrolysis of aqueous solutions The effect of the nature of electrodes on the products Electroplating Electrolysis of water Quantitative electrolysis

These PowerPoints were planned as part of the IB scheme of work on Structure and Bonding and cover the necessary content for both the Standard and Higher Level topics. They would also be suitable for other post-16 courses. Included are fully completed PowerPoints, student versions of the PowerPoints with sections to complete independently and some exam style questions. Topics included are: Ionic Bonding What is ionic bonding? Common positive and negative ions Working out the formula of ionic compounds Giant ionic lattices Properties of ionic substances Covalent Bonding What is covalent bonding? How to draw Lewis structures How to tell if a substance will be ionic or covalent The Octet rule and how it can be broken Coordinate bonds and compounds which contain them Resonance structures VSEPR theory Shapes of molecules with up to 6 bonding pairs Shapes of molecules with up to 6 bonding and lone pairs Giant covalent bonding - diamond, graphite and silica Intermolecular Bonding - London forces - Permanent dipole-permanent dipole forces - Permanent dipole-induced dipole forces - Hydrogen bonding - Solubility and intermolecular forces Metallic Bonding How do we describe a metallic structure? How to predict which metal will have the high melting point Properties of metals Properties of alloys Advanced covalent bonding, electron domains and molecular geometries Assigning formal charge Exceptions to the octet rule Formation of sigma and pi bonds The composition of single, double and triple bonds Resonance hybrids and delocalisation The structure of benzene - Kekule and delocalised Absorption of UV light in the atmosphere Catalysis of ozone depletion by CFCs and NOx gases Hybridisation sp3, sp2, sp hybridisation: how it happens, resulting shapes and how to identify molecules with each type of hybridisation.