A lesson where students will investigate the meanings of Arenhuis and Lowry-Bronstead theories.
Students will also calculate the concentration of acids using exam style questions.
This lesson covers the idea of how we can classify materials into specific groups. This will begin in the descriptions of macromolecules and micromolecules. Mixture types are also explained and identified., along with the naming of common materials.
A lesson that introduces the idea of elastic and inelastic collisions. Definitions of both are given. Calculations to show which type of collision has actually occurred is also shown.
A lesson that shows the Law of Conservation of Momentum. It introduces the equation for the Law and the definition required for exam questions. Also a quick review of the momentum equation.
A booklet that reviews the main ideas behind the Doppler effect.
With clear definitions and some practice questions the booklet covers what is basically required by most examining boards.
A lesson that introduces the idea of moles and the equation used to calculate the moles of a substance from its mass.
Simple styles of questioning introduce the student to the idea of stoichiometry.
This lesson covers the basic ideas behind the transfer of electrons in the REDOX process. Including how to answer questions on cell notation, half reactions and how to identify the parts of a electrochemical cell.
This lesson covers the basic ideas in how we read and analyse the structure of a graph. It pays particular attention to the idea of a Graph of motion and uses the SUVAT equations in the answering of questions.
The lesson will cover the idea behind motion and result momentum. This will include exam style questions on vectors, motion and momentum with full explanations.
A quick lesson to review the basic ideas surrounding equilibrium constants in chemical reactions.
The lesson will cover the graphical representation of equilibrium and the Law of Equilibrium. The types of equilibrium is also covered.
EMF and internal resistance is covered in this lesson. It will give the pupil an understanding of how we can calculate the EMF of a circuit. The lesson looks at the idea of ‘lost volts’ in a circuit and what internal resistance is and how it can be measured.
This lesson covers the equilibrium reactions in chemistry. It shows how to set out typical reaction questions and the working out of ‘Kc’ from a chemical reaction.
This lesson will look at how motion can be affected and analysed under different circumstances.
How heights can be calculated for example, exam style questions are shown. The explanation of motion graphs is also covered.
The study of organic chemistry is introduced in this lesson. The lesson will look at how to identify the common types of organic compound and how to draw and initially name them.
This lesson involves the naming and identification of organic compounds. This will involve the naming of carbon based compounds due to their number of bonds, position of other elements or structure.
This lesson will investigate the calculations related to motion and power. Students will understand how kinetic energy and potential energy have an interlocked dynamic. Calculations are also broken down and fully explained.
This lesson will involve the explanation of how photons act upon surfaces. The equation for the photoelectric is also given with examples of exam style questions.
The lesson covers the basic principles of using gravity to affect motion. The lesson will cover vertical projectile motion and show various calculations involved in the process.
The fifty mark test includes questions on Newtons laws, second law mainly; resultant forces and friction affecting motion. With another set of questions looking at applications of the said ideas.
The test of fifty marks will cover the topic of universal gravitation. this will include the definition and the calculations associated with Newton’s gravitational law.