8: preparation of a pure, dry sample of a soluble salt9: investigate what happens when aqueous solutions are electrolysed10: investigate the variables that affect temperature changes in reacting solutions, -The periodic table-How bonding and structure are related to the properties of substances-Structure and bonding of carbon-Reactivity of metals-Reactions of acids-Electrolysis, Topics not assessed in this paper: Not applicable. Find all the information, support and resources you need to deliver our specification. the ratio of the useful work done by a machine, engine, device, etc, to the energy supplied to it, often expressed as a percentage. Advanced Information. All pupils who sat higher tier paper 1 last Thursday (June 9) will all be awarded the full nine marks available for all parts of a question on energy . This website works best with JavaScript switched on. Paper 3 Section B Option B Medical physics -Acids and bases-Amount of substance-Transition metals-Group 7(17), the halogens-Atomic structure-Bonding-Equilibrium constant Kp for homogeneous systems, Preparation of an organic solid and a test of its purity, -Alkenes (including Required Practical 10)-Amount of substance-Amino acids, proteins and DNA-Chemical equilibria, Le Chateliers principle and Kc-Rate equations-Aromatic chemistry-Introduction to organic chemistry, Measuring the rate of reaction by an initial rate method, Carry out simple test-tube reactions to identify cations and anions in aqueous solution, -Thermodynamics (including Required Practical 2)-Introduction to organic chemistry-Transition metals-Halogenoalkanes-Rate equations (including Required Practical 7)-Amount of substance (including Required Practical 4)-Electrode potentials and electrochemical cells, -Amount of substance (includes practical skills)-Transition elements-Acids, bases and buffers (includes practical skills)-Periodicity-Enthalpy changes (includes practical skills)-How fast?-Enthalpy and entropy-Acids (includes practical skills), -Amount of substance (includes practical skills)-Alkenes-Spectroscopy-Aromatic compounds-Organic synthesis (includes practical skills)-Carbonyl compounds (includes practical skills)-Basic concepts of organic chemistry-Analytical techniques-Polyesters and polyamides, -Amount of substance (includes practical skills)-Redox and electrode potentials (includes practical skills)-Chemical equilibrium (includes practical skills)-Basic concepts of organic chemistry-Organic synthesis (includes practical skills)-Acids, bases and buffers-Lattice enthalpy (includes practical skills)-Amino acids, amides and chirality-Spectroscopy, Factor theorem, cubic graphs Transformations of graphs Conversion between parametric and Cartesian forms, trigonometric identities Coordinate geometry, equations of straight lines and circles Arithmetic sequences and series, inequalities Periodic sequences Sum to infinity of a geometric series, exact values of trigonometric functions Graphs of trigonometric functions, transformations of graphs Small angle approximations of trig functions, binomial expansion, Implicit differentiation, stationary points of curves Tangents to a curve The gradient function of a curve Area under a curve, integration techniques, trapezium rule Integration by substitution, differentiation of trigonometric functions, trigonometric identities Newton-Raphson method, areas of sectors and triangles, locating roots by considering a change of sign, Section A Proofs by counterexample and exhaustion Transformations of graphs, sketch curves defined by simple equations Coordinate geometry of the circle Binomial expansion, integration of polynomials Sine and cosine rules Laws of logarithms Convex and concave sections of curves Differentiation from first principles Maximum and minimum points of polynomials Solving differential equations, exponential models, partial fractions, Section B Position vectors, constant acceleration formulae in two dimensions Calculus in kinematics using vectors, calculus for exponential and trigonometric functions, calculus techniques, magnitude of a vector Constant acceleration formulae Projectile motion, trigonometric functions Velocity-time graphs Forces in equilibrium in 2D Newton's laws of motion, friction, resolving forces, constant acceleration formulae Weight and acceleration due to gravity Moments, Section A Proof by contradiction Inverse functions Validity of binomial expansion Graphs of trigonometric functions, trigonometric equations Using logarithmic graphs to estimate parameters in non-linear relationships Connected rates of change Parametric differentiation, parametric models Stationary points of curves, graphs of a function, domains and ranges of a function,simultaneous equations Area between two curves Integrating powers of x, Section B Critique statistical sampling Sampling methods and terminology, Interpreting statistical diagrams, distributions Probability using Venn diagrams, conditional probability, independent events Binomial distribution, binomial probabilities Normal distribution properties and probabilities, calculations with summary statistics Parameters of a normal distribution Hypothesis test for mean of a normal distribution Hypothesis test for proportion using binomial distribution, Use of aseptic techniques to investigate the effect of antimicrobial substances on microbial growth, Investigation into the effect of a named variable on the rate of an enzyme-controlled reaction, -Transport across cell membranes (including Required Practical 3)-Cell structure-Genetic diversity and adaptation (including Required Practical 6)-Gas exchange-Proteins (including Required Practical 1)-Carbohydrates-Mass transport-Biodiversity within a community, Investigation into the effect of a named variable on the rate of respiration of cultures of single-celled organisms, -Homeostasis is the maintenance of a stable internal environment-Respiration (including Required Practical 9)-Nervous coordination-Energy and ecosystems-Nutrient cycles-Inheritance-Gene expression is controlled by a number of features-Photosynthesis, -Photosynthesis-All cells arise from other cells (including Required Practical 2)-Gene technologies allow the study and alteration of gene function allowing a better understanding of organism function and the design of new industrial and medical processes-Nervous coordination-Mass transport-DNA and protein synthesis-Proteins-Stimuli, both internal and external, are detected and lead to a response, AQA - GCSE - Combined Science - Foundation - Biology Paper 1, AQA - GCSE - Combined Science - Foundation - Biology Paper 2, AQA - GCSE - Combined Science - Foundation - Chemistry Paper 1, AQA - GCSE - Combined Science - Foundation - Chemistry Paper 2, AQA - GCSE - Combined Science - Foundation - Physics Paper 1, AQA - GCSE - Combined Science - Foundation Physics Paper 2, AQA - GCSE - Combined Science - Higher - Biology Paper 1, AQA - GCSE - Combined Science - Higher Biology Paper 2, AQA - GCSE - Combined Science - Higher - Chemistry Paper 1, AQA - GCSE - Combined Science - Higher Chemistry Paper 2, AQA - GCSE - Combined Science - Higher - Physics Paper 1, AQA - GCSE - Combined Science - Higher Physics Paper 2, AQA - GCSE - Separate Science - Higher - Biology Paper 1, AQA - GCSE - Separate Science - Higher Biology Paper 2, AQA - GCSE - Separate Science - Higher - Chemistry Paper 1, AQA - GCSE - Separate Science - Higher Chemistry Paper 2, AQA - GCSE - Separate Science - Higher - Physics Paper 1, AQA - GCSE - Separate Science - Higher Physics Paper 2, AQA - GCSE - Separate Science - Foundation - Biology Paper 1, AQA - GCSE - Separate Science - Foundation Biology Paper 2, AQA - GCSE - Separate Science - Foundation - Chemistry Paper 1, AQA - GCSE - Separate Science - Foundation Chemistry Paper 2, AQA - GCSE - Separate Science - Foundation - Physics Paper 1, AQA - GCSE - Separate Science - Foundation Physics Paper 2, EDEXCEL - GCSE - Combined Science - Foundation - Biology Paper 1, EDEXCEL - GCSE - Combined Science - Foundation Biology Paper 2, EDEXCEL - GCSE - Combined Science - Foundation - Chemistry Paper 1, EDEXCEL - GCSE - Combined Science - Foundation Chemistry Paper 2, EDEXCEL - GCSE - Combined Science - Foundation - Physics Paper 1, EDEXCEL - GCSE - Combined Science - Foundation Physics Paper 2, EDEXCEL - GCSE - Combined Science - Higher - Biology Paper 1, EDEXCEL - GCSE - Combined Science - Higher Biology Paper 2, EDEXCEL - GCSE - Combined Science - Higher - Chemistry Paper 1, EDEXCEL - GCSE - Combined Science - Higher Chemistry Paper 2, EDEXCEL - GCSE - Combined Science - Higher - Physics Paper 1, EDEXCEL - GCSE - Combined Science - Higher Physics Paper 2, EDEXCEL - GCSE - Separate Science - Higher - Biology Paper 1, EDEXCEL - GCSE - Separate Science - Higher Biology Paper 2, EDEXCEL - GCSE - Separate Science - Higher - Chemistry Paper 1, EDEXCEL - GCSE - Separate Science - Higher Chemistry Paper 2, EDEXCEL - GCSE - Separate Science - Higher - Physics Paper 1, EDEXCEL - GCSE - Separate Science - Higher Physics Paper 2, EDEXCEL - GCSE - Separate Science - Foundation - Biology Paper 1, EDEXCEL - GCSE - Separate Science - Foundation Biology Paper 2, EDEXCEL - GCSE - Separate Science - Foundation - Chemistry Paper 1, EDEXCEL - GCSE - Separate Science - Foundation Chemistry Paper 2, EDEXCEL - GCSE - Separate Science - Foundation - Physics Paper 1, EDEXCEL - GCSE - Separate Science - Foundation Physics Paper 2, AQA GCSE Maths Foundation Paper 1, AQA GCSE Maths Foundation Paper 2, AQA GCSE Maths Foundation Paper 3, EDEXCEL GCSE Maths Foundation Paper 1, EDEXCEL GCSE Maths Foundation Paper 2, EDEXCEL GCSE Maths Foundation Paper 3, EDEXCEL GCSE Maths Higher Paper 1, EDEXCEL GCSE Maths Higher Paper 2, EDEXCEL GCSE Maths Higher Paper 3, No core practicals are assessed in this paper, B: test series and parallel circuits using resistors and filament lamps, Investigate the change in pH on adding powdered calcium hydroxide or calcium oxide to a fixed volume of dilute hydrochloric acid, Investigate the electrolysis of copper sulfate solution with inert electrodes and copper electrodes, B: B test series and parallel circuits using resistors and filament lamps, GCSE Further Maths (Level 2, Level 3 and FSMQ), GCSE Science Predicted Papers - Digital Version, GCSE Maths Predicted Papers - Digital Version, Maths GCSE Grade 7, 8 and 9 Booster Revision Questions, Subject Stickers | glossy vinyl | decal die cut stickers for folders, Topic 4 Natural selection and genetic modification evolution and selective breeding, Topic 5 Health, disease, and the development of medicines disease, Topic 5 Health, disease, and the development of medicines immune system, Topic 1 Key concepts in biology microscopy, Topic 1 Key concepts in biology osmosis, Topic 4 Natural selection and genetic modification genetic engineering, Topic 5 Health, disease, and the development of medicines new medicines. Starting with the November 2022 exam they will once again be required to answer both questions. As theres different advance information for biology, chemistry and physics depending on whether youre taking a separate or combined science GCSE, its important to choose the right one. 8464/8463 (9-1) These are the past papers from the current AQA GCSE course. The exam boards, AQA, CCEA, Edexcel, Eduqas, OCR and WJEC; plus the SQA in Scotland will provide further information about their exams. How long will the course take to complete? Core Practical 1.6 Investigate biological specimens using microscopes, including magnification calculations and labelled scientific drawings from observations. 50% of AS. Receive the latest news, resources and support for your subject area from AQA. For each paper the list shows the major focus of the content of the examination; the topic areas are listed in rank order, with the areas carrying the highest mark allocations at the top of each list. It has taken a little while to complete all the AQA 2022 A-level physics papers and evaluate the impact of the advance exam information that was provided to schools and teachers. Report. Topics not listed but may be assesssed in synoptic questions and may add to extended writing answers. Measurements and their errors Units Questions Mark Scheme Measurement Questions Mark Scheme Rate of cooling is low if walls are thick and thermal conductivity of the walls are low. an object accelerated by a constant force. The whole of AQA Physics Paper 2 in only 47 minutes! The photocards will return for the November 2022 exam onwards. Sarahmillier. Paper 1 Interested in becoming an OxfordAQA centre?