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This download contains a marking scheme for the seismic waves workbook. Access our full selection of workbooks, presentations and mark-schemes at www.science-cover.com. In this lesson students will: 1. Explain how are seismic waves produced 2. Learn the difference between primary waves, secondary waves and surface waves. 3. Use information from seismic waves to explore the Earth’s structure.

This download contains a lesson workbook for seismic waves. Access our full selection of workbooks, presentations and mark-schemes at www.science-cover.com. In this lesson students will: 1. Explain how are seismic waves produced 2. Learn the difference between primary waves, secondary waves and surface waves. 3. Use information from seismic waves to explore the Earth’s structure.

This lesson focuses on what is nuclear fusion and its potential use as a clean fuel of the future. This download contains a lesson workbook. Students will: Explain the difference between nuclear fission and fusion processes. Describe what happens within the sun. Investigate the advantages and disadvantages of fusion in power stations of the future. Access our full selection of workbooks, presentations and mark-schemes at www.science-cover.com.

This download contains a lesson workbook. Access our full selection of workbooks, presentations and mark-schemes at www.science-cover.com. This lesson focuses on speed and velocity. Students will: 1. Calculate the speed using the speed, distance and time equation. 2. Rearrange the equation to calculate distance and time 3. Learn the difference between speed and velocity? 4. Calculate the velocity using displacement.

Access our full selection of workbooks, presentations and mark-schemes at www.science-cover.com. This download contains a lesson workbook. This lesson focuses on the conservation of energy. (How energy can not be created or destroyed). Students define the law of conservation of energy. Explore the relationship between GPE and KE in swinging objects. Draw Sankey diagrams to identify where energy has been distributed

This book is the first of our "100 Science experiments series", and contains the first 50 experimental ideas to help bring the science classroom to life. The experiments can be taught to any Science class, but are aimed at students age between 11 and 18, and are grouped into topics. The topics covered by this book include Energy, Heat, Forces, Pressure, Electricity and Magnetism. Each experiment is presented with a short introduction, aim, equipment list, safety thoughts, methodology and any r

This download contains a lesson workbook. Access our full selection of workbooks, presentations and mark-schemes at www.science-cover.com. This lesson focuses on distance time graphs (d-t graphs) Students will: 1. Learn to read a distance time graph 2. Calculate the gradient of the graph to find speed 3. Draw a tangent to a curve to find speed for an accelerating body

This download contains a lesson workbook. Access our full selection of workbooks, presentations and mark-schemes at www.science-cover.com. This lesson focuses on acceleration Students will: 1. Calculate acceleration using the acceleration equation 2. Rearrange the equation to calculate speed or time. 3. Use the equation to calculate deceleration (Negative acceleration)

Access our full selection of workbooks, presentations and mark-schemes at www.science-cover.com. This download contains a lesson workbook. This lesson focuses on how different energy sources will affect the environment. Students investigate greenhouse effect and climate change, how sulphur and nitrogen cause acid rain, and how nuclear power produces nuclear waste

Access our full selection of workbooks, presentations and mark-schemes at www.science-cover.com. This download contains a lesson workbook. This lesson focuses on the parts of a fossil fuel power station and their role in energy production. Students explore non-renewable fuel types and describe the advantages and disadvantages of coal power and nuclear power.

This download contains a lesson workbook. Access our full selection of workbooks, presentations and mark-schemes at www.science-cover.com. This lesson focuses on Students will: Identify the parts of a lever. Calculate the moment of a force using force and distance form the pivot. Moment = Force x distance from the pivot Working with clockwise and anticlockwise moments on a seesaw. Working with moments in equilibrium.

Access our full selection of workbooks, presentations and mark-schemes at www.science-cover.com. This download contains a lesson workbook. Students use data on voltage and current to complete a graph, which shows how voltage is directly proportional to the current. Students use the gradient to calculate a value of the resistance. The final part of the lesson has students investigate the I-V graph and characteristics of different components.

Access our full selection of workbooks, presentations and mark-schemes at www.science-cover.com. This download contains a lesson workbook. This lesson is focused on electrical efficiency. Students investigate the concept of efficiency and discuss useful and wasted energy. Students use the efficiency equation to calculate efficiency. Students learn to rearrange the equation to calculate energy values.

Access our full selection of workbooks, presentations and mark-schemes at www.science-cover.com. This download contains a lesson workbook. This lesson is on electrical power. Students are introduced to the power equation. Power = Current x Voltage (P = I V) Students use an equation triangle to rearrange the equation and complete practice questions.

Access our full selection of workbooks, presentations and mark-schemes at www.science-cover.com. This download contains a lesson workbook. This lesson focuses on electrical resistance. Students first cover what we mean by resistance and why it happens. Then we introduce the equation voltage = Current x Time (V = IR). Students are shown examples of how to use the equation and are asked to complete practice questions. The final part of the lesson explores how combinations of resistors in ser

Access our full selection of workbooks, presentations and mark-schemes at www.science-cover.com. This download contains a lesson workbook. This lesson introduces the equations "Charge = Current x Time" and "Work done = Charge x Voltage". The students introduced to the Q = IT equation, and shown examples of how to rearrange the equation using an equation triangle. They will then attempt practise questions using this equation. The next section introduces W = QV and gives examples of it's use.

Access our full selection of workbooks, presentations and mark-schemes at www.science-cover.com. This download contains a lesson workbook. In this session students explore what we mean by the term electric current, then investigate how a ammeter can be used to measure the current. Students then use the current rules to calculate how much current will flow through parts of series and parallel circuits.

Access our full selection of workbooks, presentations and mark-schemes at www.science-cover.com. This download contains a lesson workbook. This session looks at how a charge difference between two surfaces creates a potential difference (Voltage). Students explore the idea that the size of charge difference directly affects the size of potential difference and how this will affect the size and direction of current created. The students then investigate how we can measure voltage using a voltmet

This download contains a lesson workbook. Access our full selection of workbooks, presentations and mark-schemes at www.science-cover.com. This lesson investigates the concept of conservation of momentum in collisions and explosions. Students will: State the law of conservation of momentum Calculate momentum of a moving object in a collision Use the conservation of momentum to calculate the velocity of bodies in collisions where the masses stick together. Use the conservation of momentum to calc

This download contains a lesson workbook. Access our full selection of workbooks, presentations and mark-schemes at www.science-cover.com. This lesson focuses on Hooke's Law Students will: Use data to plot a graph of force against extension. Conclude that the extension is directly proportional to the force. Relate F = kx to the equation for a straight line. Calculate the value of k by working out the gradient of the line. Use the equation F = kx to perform calculations. Define the terms elastic