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.
This lesson introduces the student to the concept of carbon chains. It looks at the types of carbon chains you can see in school level chemistry and the idea of presenting the structure of a carbon molecule correctly.
Empirical and structural examples are also given and questioned within the lesson.
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.
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.
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 involve the explanation of how photons act upon surfaces. The equation for the photoelectric is also given with examples of exam style questions.
This lesson will define the terms used in describing rates of reaction. This will include graphical (Boltzmann distribution) and activation energy. The lesson also includes the Collision Theory.
A LESSON THAT SHOWS THE BASIC IDEAS BEHIND ALUMINIUM EXTRACTION AND THE USES OF ELECTROCHEMISTRY IN THE PROCESS. WITH A SIMPLE SHOWING OF HOW ELECTROLYSIS WORKS IN INDUSTRY.
A LESSON SHOWING THE BASIC IDEA OF MEASURING ELECTRODE POTENTIAL AND WHY WE USE HYDROGEN IN THE PROCESS. THE STANDARD HYDROGEN ELECTRODE IS ALSO INTRODUCED.
A LESSON DEPICTING THE CONCEPT OF BROWNIAN MOTION, WITH VARIOUS THINKING STRATEGIES FOR THE STUDENTS TO COMPLETE. THIS WILL HELP THEM UNDERSTAND A DIFFICULT SCIENTIFIC MODEL.
Pupils will learn how to identify the various states of matter. The lesson will introduce the concept of Kinetic molecular theory in a simple way. The lesson will also introduce the idea of how forces hold molecules together.
A lesson that introduces the concept of how diffusion occurs and experimentation of the process. Pupils will investigate how diffusion can be affected by external factors.
This lesson covers the main topics within the sphere of Electrochemistry. It reviews the chemical reactions involved and how they can be presented.
The lesson shows how the Redox reaction also occurs. With sample questions on Electrode potential and the purpose of Salt Bridges.
A short test that covers the chemistry of matter, electron configuration and ionization energies. The test is out of fifty marks and has various levels of questions.
This is a fifty mark test/investigation regarding Boyle’s Law. It can be used to supplement a practical investigation into Boyle’s law or as a stand alone test.
This lesson will cover the use of titration calculations in chemistry. This will include the use of equations involved in titration and the uses of titration in ‘real life’.