A lesson that covers the conservation of momentum. This will include how to identify correct SUVAT equations to use. The Law of Conservation of Momentum will also be looked at with example questions.
This lesson looks at the influence outside factors have on the motion of an object. Including calculating resultant forces and its equations. The idea of how friction affects motion and its relationship with Newtons second Law of motion.
This test will cover the basic ideas of stoichiometry introduced to students undertaking a chemistry course. Including moles calculations and atomic masses.
This lesson will cover the classic questions and ideas surrounding the term Work done. This will include the breakdown and analysis of how to answer exam style questions on the work done concept.
This test of fifty marks is aimed for 11-14 age bracket science students. It comprises a selection of differing questions that are related to forces, circuits and circuit measurements.
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 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.
Pupils must be able to read and analyse data from graphs for all three main sciences. This lesson helps their understanding of how we interpret and write graphs.
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.
An introductory lesson for high level GCSE and AS level chemistry. This lesson will address the differences between types of electrochemical cells and their uses in industry.
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 40 MARK TEST REGARDING BASIC INTRODUCTION TO THE IDEA OF COMPOUNDS AND ELEMENTS. USE OF THE PERIODIC TABLE IS REQUIRED IN THE TEST TO IMPROVE THE STUDENTS UNDERSTANDING OF ITS ARRANGEMENT.
AN EXAMINATION OF HOW TO CALCULATE THE FORCES ACTING ON A SLOPE. THIS INCLUDES POTENTIAL AND KINETIC ENERGY FOUND ACTING ON AN OBJECT WHILST ON A SLOPE.
THIS LESSON BRINGS TOGETHER THE IDEA OF HOW WEIGHT, MASS AND GRAVITY ACT ON AN OBJECT WHILST ON AN INCLINE. IT ALSO INCLUDES THE IDEA OF ANGLE OF INCLINATION AND FRICTION CO EFFICIENTS.