THIS LESSON BRINGS TOGETHER ALL THE BASIC IDEAS OF HOW ELECTROCHEMISTRY WORKS. FROM THE EQUATIONS USED, THE REDOX REACTION TO THE NAMING AND WRITING OF HALF CELLS AND HALF EQUATIONS.

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.

A LESSON THAT EXPLAIN THE BASIC CONCEPTS OF PARTICLE THEORY, WITH A MODELING IDEA. CLASSIC EXAM STYLE QUESTIONS ARE ALSO INCLUDED TO HELP STUDENTS FULLY UNDERSTAND.

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.

A LESSON THAT LOOKS AT HOW PARTICLES MOVE AND THEIR BEHAVIOUR IN VARIOUS STATES OF MATTER. MODELING OF THE PARTICLE THEORY IS ALSO INCLUDED IN THE LESSON.

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’.

This test will cover the basic ideas of stoichiometry introduced to students undertaking a chemistry course. Including moles calculations and atomic masses.

A twenty three page booklet covering the topic of intermolecular forces. From the idea of London forces to bonds and to Dipoles. The booklet as well as revising the topic tests the students on their knowledge as they work through the pages.

A booklet that outlines the various methods we use to describe the data received in a scientific investigations. The booklet also covers the idea of scientific method. Basic information of standard IUPAC measurement is also given.

This is a forty mark test set over three questions. The questions vary in ability and style. The test comprises questions that relate to the redox reaction, Galvanic cells and Electrolytic cells. The answer sheet is provided.

This power-point lesson covers the topic of intermolecular forces. It explains to the student the different types of forces and how they work. The physical properties of the molecules are also discussed giving the student knowledge of variations in element groups.

This lesson covers the following: Redox reactions Redox and electron transfer Oxidation numbers Calculating oxidation numbers Writing formulae using oxidation numbers Redox and changes in oxidation number Redox reactions of metal with acid Disproportionation Balancing redox reactions

This lesson covers the chemistry topic of parts per million. Included in the lesson are the calculations of PPM with several examples, the uses of the PPM equation in chemistry and how the idea is used in the chemical and water industry.

This booklet covers a basic introduction to the study of the atom. It includes activities that cover the structure of the atom and isotopes. With notes on atomic mass and atomic charge, pupils will also learn the history of the atomic model. I have used this booklet as a stand alone set of activities to compliment lessons.

This lesson covers the module of energetics. The topics it covers are Enthalpy changes and enthalpy profile diagrams Activation energy Standard change of enthalpy Measuring enthalpy changes experimentally using calorimetry Bond enthalpies Hess’s law and enthalpy cycles Calculating average bond enthalpies All calculations include the answers.