This PowerPoint lesson covers the topic of Ionic bonding with objectives set at defining an ion, naming common ions, following the correct pathway to show ionic not covalent bonding and explaining the steps involved in ionic bonding. The lesson includes various activities and exam style questions to test students understanding of the topic.
This power-point lesson covers the topic of waves. From the basic construction of waves to the varying types of wave. With learning objectives including calculating wave frequency, naming waves by their movement and describing the parts and structure of waves. Various activities and critical thinking questions are also included in the lesson.
This power-point lesson covers the topic of calculating the frequency, the wavelength and the speed of waves. The lesson covers as well as calculations a review of frequency and wavelength concepts. Exam style questions are used to reinforce the use of the correct equation.
This power-point lesson covers the topic of acceleration. With sections of the lesson relating to the correct terms to use when discussing acceleration, to the calculation of acceleration and the correct units to use to show acceleration.
The lesson introduces the concept of how motion in a straight line can be analyzed. With learning objectives covering the following, using the correct terms to describe motion, calculating simple displacement and creating diagrams to show simple straight line motion.
The lesson has various activities and questions ranging in ability.
This lesson covers the topic of speed and velocity. With various activities for students and having lesson objectives that include the following, calculating average speed and velocity and using the correct terms when describing speed and velocity.
This lesson covers the topic of Gravitational potential energy. With learning objectives such as creating diagrams showing GPE in action and calculating the GPE of an object at different heights.
This lesson comes in a power-point format with many different learning styles.
This test covers the topics of light and electricity for ages 11-14. The test has questions related to static electricity, circuits and light wavelengths. The test has sixty marks allocated to it spread over six questions.
A full mark scheme is also included.
This test covers the topic of astronomy, with sections on the correct terminology, definitions and locations of objects in the galaxy. The test has sixty marks allocated to it over four separate questions. A full answer scheme is included.
This is a general science test aimed for ages 11-14.
The test has fifty marks allocated to it over five questions.
The test has the following topics covered, ACIDS / BASES / FORCES / STATIC ELECTRICITY.
This test covers the topic of speed and acceleration. The test has the following sections types, calculation of speed and acceleration, definitions of words associated with speed and acceleration and analysis of graphs.
This is a multiple choice test.
The test has forty marks allocated to it spread over twenty questions.
The questions vary in style and ability level.
A full mark scheme is also included.
This test covers the topics of acceleration and mechanical energy.
The test has sixty marks allocated to it over ten questions.
Questions vary in style and ability level.
A full mark scheme is also included.
This assessment booklet covers the topic of measuring magnetic fields. Questions are also related to shapes of magnetic fields and the interaction of bar magnets. An experiment is explained, and questions asked regarding the experimental procedure and the theory behind it.
The assessment is allocated forty marks spread over two sections.
The questions vary in ability level and style.
A full mark scheme is included.
This power-point lesson covers the topic of scientific notation. With learning outcomes such as simplify using laws of indices, converting large numbers to more manageable terms and understanding the concept of scientific notation.
Various activities and questions are included with answers supplied.
This booklet covers the topic of experimenting with Potential and Kinetic energy.
It uses a simple experiment to help students understand and be assessed on the concept. The questions part consists of two sections with an allocation of forty marks. The questions vary in style and ability level.
A full mark scheme is also included.
This assessment booklet covers the topic of calculating resistance in a wire. An experiment is explained, and questions asked regarding the experimental procedure and the theory behind it.
The assessment is allocated forty marks spread over two sections.
The questions vary in ability level and style.
A full mark scheme is included.
This assessment booklet covers the topic of conservation of momentum. An experiment is explained and questions asked regarding the experimental procedure and the theory behind it.
The assessment is allocated forty marks spread over two sections.
The questions vary in ability level and style.
A full mark scheme is included.
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 short fifty mark test covering the idea of motion and the use of SUVAT equations. Aimed at Year 10, this test can also be used as a revision question session.