A graphic organiser on the A-Level Chemistry concept of 1H NMR. A visual aid that illustrates the main points that students need to know about the theory of NMR (solvents, TMS, D2O, splitting pattern, integration etc).
A knowledge organiser on NMR spectroscopy suitable for A-Level Chemistry syllabuses. Includes information about the theory of 1H (proton) NMR. Includes explanation of how NMR works (property of spin, magnetism and radio waves). Also contains information about TMS, solvents, labile protons, Low and high resolution, spin-spin coupling, n+1 rule, splitting patterns, integration etc.
An AQA Chemistry GCSE resource showing students how to calculate reacting masses from chemical equations. Teaches students to calculate how much of a product will be formed from a known mass of reactant.
An Edexcel A-Level Chemistry knowledge organiser on equilibrium. Covers all the content about equilibrium from topic 10 including using Le Chatelier’s principle to determine the effect of temperature, concentration, pressure and a catalyst on the position of equilibrium. Includes examples and information about the Haber compromise. Also includes information on how to write the Kc expression.
An editable A-Level Chemistry knowledge organiser on Transition metals Ligand exchange reactions. Includes information on why we see a change in shape, colour and coordination number. Example equations are also given for ligand exhange reactions including partial ligand exchange.
An A-Level Chemistry knowledge organiser about Kinetics. Contains information on rates of reaction (factors that affect the rate, experimental methods, explanations of why these factor affects the rate etc.) Also contains informaiton on Maxwell Boltzmann distributions and how they are used to explain the effect of temperature and a catalyst.
An A-Level Chemistry Knowledge organiser on topic 1 Atomic structure and periodic table. Covers information on structure of the atom, key definitions (RAM, RMM, Relative isotopic mass, Isotopes, first ionisation energy etc), Mass Spectrometry (using spectra to determine RAM), trends in ionisation energy, Using successive ionisation energies to determine the group an element is in given , electronic configuration (s,p,d), 1st ionisation energies across a period as evidence for subshells, periodicity (how type of bonding is linked to melting points) and emission spectrum.