Hero image

The Science Tutor

Average Rating3.33
(based on 4 reviews)

A collection of Biology, Physics and Chemistry resources for Key Stage 3 and Key Stage 4. I work as a mainstream Science teacher and all of these lessons have been succesfully delivered.

65Uploads

23k+Views

452Downloads

A collection of Biology, Physics and Chemistry resources for Key Stage 3 and Key Stage 4. I work as a mainstream Science teacher and all of these lessons have been succesfully delivered.
Light workbook
jonhopkins1jonhopkins1

Light workbook

(0)
A workbook for KS3 light that is useful for revision of the topic - with questions, diagrams to draw and tasks.
Energy 1 - energy & energy stores lesson
jonhopkins1jonhopkins1

Energy 1 - energy & energy stores lesson

(0)
Lesson 1 in KS3 Energy topic: Energy & Energy Stores. Differentiated Learning Outcomes: All: Recognise some forms of energy. Most: Give examples of energy stores. Some: Analyse household objects & identify types of energy used & stored.
Energy 2 - Formation of Fossil Fuels lesson
jonhopkins1jonhopkins1

Energy 2 - Formation of Fossil Fuels lesson

(0)
Lesson 2 in the KS3 Energy topic - Formation of fossil fuels. Includes starter activity linking to previous lesson. Also introduces the law of Conservation of Energy Learning Outcomes: All: Recognise that energy cannot be created or destroyed. Most: Give examples of energy transfers. Describe the process of forming fossil fuels Some: Explain the energy transfer in the formation of fossil fuels.
Energy 3 - Energy in Fuels lesson
jonhopkins1jonhopkins1

Energy 3 - Energy in Fuels lesson

(0)
Lesson 3 in the KS3 energy topic - Energy in Fuels. Learning Outcomes: All: State the units of energy. Carry out a practical activity safely. Most: Identify independent and dependent variables. Collect data to work out which fuel is best. Some: Analyse data to make a valid scientific conclusion
Energy 6 - Green Transport - jho
jonhopkins1jonhopkins1

Energy 6 - Green Transport - jho

(1)
Lesson 6 in the KS3 Energy topic - Green Transport. Differentiated Learning Outcomes: All: State what is used to make a biofuel. Most: Describe 3 types of ‘green’ vehicles Some: Evaluate the advantages and disadvantages of using green vehicles Design a green vehicle.
Diffusion complete lesson
jonhopkins1jonhopkins1

Diffusion complete lesson

(0)
Complete lesson for Diffusion, KS3 - including sentence starters and word frames for literacy differentiation. Practicals and description in notes also included.
Pressure lesson complete KS3
jonhopkins1jonhopkins1

Pressure lesson complete KS3

(0)
Complete lesson on pressure for KS3. Learning Outcomes: All – describe how moving gas particles cause pressure when they hit the walls of their container Most – explain the ways in which gas pressure can be increased or decreased Some – explain some of the effects of air pressure
Heat Transfer lesson 6 - Protective clothing
jonhopkins1jonhopkins1

Heat Transfer lesson 6 - Protective clothing

(0)
Complete lesson number 6 in the Heat Transfer topic for KS3: Protective Clothing. Differentiated learning outcomes: All: Explain why protective clothing is needed using scientific reasoning. Most: Understand the important scientific properties of insulation. Some: Understand the important scientific properties of insulation.
Heat Transfer 1 - Hot Stuff lesson
jonhopkins1jonhopkins1

Heat Transfer 1 - Hot Stuff lesson

(0)
Lesson 1 of the KS3 topic Heat Transfer - Hot Stuff. This lesson is focused on the difference between heat and temperature. Practicalprocedure included. Differentiated learning outcomes: All Recall the units for measuring temperature and heat energy. Work out which way heat energy will be transferred between a hot and a cold object. Most Explain the difference between temperature and heat energy. Some List the three things that the amount of heat energy stored in an object depends on.
Heat Transfer 2 - Heating Solids lesson
jonhopkins1jonhopkins1

Heat Transfer 2 - Heating Solids lesson

(0)
Lesson 2 in the Heat Transfer topic for KS3. Differentiated learning outcomes: All List some examples of heat conductors and insulators. Most Explain conduction using the particle method. Explain why some solids are better conductors than others. Some Explain why solids expand when they are heated.
Solar System 1 - A Place Near The Sun complete lesson
jonhopkins1jonhopkins1

Solar System 1 - A Place Near The Sun complete lesson

(0)
1st lesson in the Key Stage 3 topic The Solar System and Beyond. Complete lesson. Differentiated learning outcomes: All: Explain what the terms day and year means to an astronomer. Most: Describe how shadows form and how they can be used to tell the time. Some: Explain how the time and date varies on our planet.
Cracking Up - complete lesson.
jonhopkins1jonhopkins1

Cracking Up - complete lesson.

(0)
A complete lesson for KS3 on the various weathering processes. Exploring Science-Lesson 1 of Explaining The Earth topic. Contains practical and demonstration & card sort slides. Learning Outcomes: All - State 1 physical weathering process. Most Describe how 2 physical weathering process break down rocks Some Explain how water, wind, temperature and living things affect rocks Model physical weathering.
Heat Transfer lesson 4 - Changing State
jonhopkins1jonhopkins1

Heat Transfer lesson 4 - Changing State

(0)
Lesson 4 in the Heat Transfer topic at Key Stage 3 - Changing State. Differentiated Learning Outcomes: All: Describe what happens to the temperature of a liquid while it is boiling. Describe what happens to the temperature while a liquid freezes. Most Carry out a practical to investigate the temperature of water through the changes of state. Some Explain the shape of a graph of temperature against time for a substance being heated or cooled.
Heat Transfer 3 - Heating Fluids lesson
jonhopkins1jonhopkins1

Heat Transfer 3 - Heating Fluids lesson

(0)
Lesson 3 from Heat Transfer topic for Key Stage 3. Differentiated Learning Outcomes: All: Recall which substances heat can travel through by convection. Most: Demonstrate a convection current. Some Explain how a convection current is formed.