Hero image

498Uploads

105k+Views

89k+Downloads

Magnetism - Magnets and Electromagnets Fully Resourced lesson  Plus Save the School Nurse Escape Room KS3
penyrheol1penyrheol1

Magnetism - Magnets and Electromagnets Fully Resourced lesson Plus Save the School Nurse Escape Room KS3

2 Resources
A comprehensive, fully resourced lesson on permanent magnets and electromagnets plus an innovative, enjoyable and challenging escape room lesson. Students have to work their way through the clues to find the code to a combination lock on the school infirmary in which the school nurse has been accidentally locked What’s Covered Magnetic materials can be made into magnets. Iron, cobalt and nickel and their alloys are magnetic materials. Unlike poles attract and like pole repel. There is an invisible magnetic field around a magnet made up of field lines. Draw the field lines around a bar magnet. The closer together the field lines the stronger the magnetic field. Draw the field lines around two bar magnets with like and unlike poles facing. There are more field lines around the poles where the magnetic field is strongest. The magnetic field strength gets less as distance from the magnet increases. Field lines point away from the south pole and towards the north pole of a magnet. When a magnetic material is made into a magnet, the randomly facing domains all line up to point in the same direction. The Earth acts as though there as a south-type pole at magnetic north and a north-type pole at magnetic south. Explain how an electric bell, a circuit breaker and a relay work What’s Included Lesson Animated PowerPoint for teaching with exit ticket quiz Answer/mark scheme PowerPoint Flip it (pupil writes questions to given answers) Anticipation Guides (combined starter and plenary) Foldable Cut and stick activity. Worksheet to support the PowerPoint Fact sheet Homework plus answers Fact share worksheet Pupil progress self-assessment checklist Exit Ticket Suggested lesson plan showing choices possible between resources Escape Room PowerPoint – scene setting and instructions (sound effects and built-in timer); crossword word search dominoes activity worksheet code breaker sheet answers lesson plan. For more high quality resources visit: Elf Off the Shelf Resources
Magnetism - Magnets and Electromagnets Save the School Nurse Escape Room - KS3
penyrheol1penyrheol1

Magnetism - Magnets and Electromagnets Save the School Nurse Escape Room - KS3

(0)
Finish and reinforce a module of work on magnets or revisit it prior to exams with this innovative, enjoyable and challenging escape room lesson. Prior Knowledge Required Magnetic materials can be made into magnets. Iron, cobalt and nickel and their alloys are magnetic materials. Unlike poles attract and like pole repel. There is an invisible magnetic field around a magnet made up of field lines. Draw the field lines around a bar magnet. The closer together the field lines the stronger the magnetic field. Draw the field lines around two bar magnets with like and unlike poles facing. There are more field lines around the poles where the magnetic field is strongest. The magnetic field strength gets less as distance from the magnet increases. Field lines point away from the south pole and towards the north pole of a magnet. When a magnetic material is made into a magnet, the randomly facing domains all line up to point in the same direction. The Earth acts as though there as a south-type pole at magnetic north and a north-type pole at magnetic south. Explain how an electric bell, a circuit breaker and a relay work Pupils have to work their way through the clues to find the code to a combination lock on the school exam paper store in which the school nurse has been accidentally locked. The pack contains: PowerPoint – scene setting and instructions (sound effects and built-in timer); crossword; word search; dominoes activity; worksheet; code breaker sheet; answer keys; lesson plan. If time is limited just the crossword, word search and domino can be used. The worksheet is the most challenging clue to solve and this can be omitted completely for less able classes. Both 3 and 4 number combination locks can be purchased very cheaply online or the teacher can pretend to phone the school office for the staff to attempt to release the nurse. More high quality resources available here. Elf Off the Shelf Resources
Magnetism - Magnets and Electromagnets Fully Resourced Lesson  Plus Wilcard and Snap Card Games - KS3
penyrheol1penyrheol1

Magnetism - Magnets and Electromagnets Fully Resourced Lesson Plus Wilcard and Snap Card Games - KS3

2 Resources
A comprehensive, fully resourced lesson on permanent magnets and electromagnets plus a pack of cards for playing enjoyable and challenging games of magnetism wildcard and snap. What’s Covered Magnetic materials can be made into magnets. Iron, cobalt and nickel and their alloys are magnetic materials. Unlike poles attract and like pole repel. There is an invisible magnetic field around a magnet made up of field lines. Draw the field lines around a bar magnet. The closer together the field lines the stronger the magnetic field. Draw the field lines around two bar magnets with like and unlike poles facing. There are more field lines around the poles where the magnetic field is strongest. The magnetic field strength gets less as distance from the magnet increases. Field lines point away from the south pole and towards the north pole of a magnet. When a magnetic material is made into a magnet, the randomly facing domains all line up to point in the same direction. The Earth acts as though there as a south-type pole at magnetic north and a north-type pole at magnetic south. Explain how an electric bell, a circuit breaker and a relay work What’s Included Lesson Animated PowerPoint for teaching with exit ticket quiz Answer/mark scheme PowerPoint Flip it (pupil writes questions to given answers) Anticipation Guides (combined starter and plenary) Foldable Cut and stick activity. Worksheet to support the PowerPoint Fact sheet Homework plus answers Fact share worksheet Pupil progress self-assessment checklist Exit Ticket Suggested lesson plan showing choices possible between resources Game 66 playing cards Instruction PowerPoint For more high quality resources visit: Elf Off the Shelf Resources
Magnetism - Magnets and Electromagnets Wildcard and Snap Card Games - KS3
penyrheol1penyrheol1

Magnetism - Magnets and Electromagnets Wildcard and Snap Card Games - KS3

(0)
A great way to consolidate learning on breathing and the respiratory system with this pack of cards which can be used to play three different card games. So much fun, students don’t even realise they are learning! Prior Knowledge Required Magnetic materials can be made into magnets. Iron, cobalt and nickel and their alloys are magnetic materials. Unlike poles attract and like pole repel. There is an invisible magnetic field around a magnet made up of field lines. Draw the field lines around a bar magnet. The closer together the field lines the stronger the magnetic field. Draw the field lines around two bar magnets with like and unlike poles facing. There are more field lines around the poles where the magnetic field is strongest. The magnetic field strength gets less as distance from the magnet increases. Field lines point away from the south pole and towards the north pole of a magnet. When a magnetic material is made into a magnet, the randomly facing domains all line up to point in the same direction. The Earth acts as though there as a south-type pole at magnetic north and a north-type pole at magnetic south. Explain how an electric bell, a circuit breaker and a relay work What You Get 66 playing cards Animated PowerPoint with instructions for playing wildcard and snap More high quality resources available here. Elf Off the Shelf Resources
Magnetism - Magnets and Electromagnets Fully Resourced Lesson Plus 42 Question Board Game - KS3
penyrheol1penyrheol1

Magnetism - Magnets and Electromagnets Fully Resourced Lesson Plus 42 Question Board Game - KS3

2 Resources
A comprehensive, fully resourced lesson on permanent magnets and electromagnets plus an enjoyable and challenging board game for up to six players a set. What’s Covered Magnetic materials can be made into magnets. Iron, cobalt and nickel and their alloys are magnetic materials. Unlike poles attract and like pole repel. There is an invisible magnetic field around a magnet made up of field lines. Draw the field lines around a bar magnet. The closer together the field lines the stronger the magnetic field. Draw the field lines around two bar magnets with like and unlike poles facing. There are more field lines around the poles where the magnetic field is strongest. The magnetic field strength gets less as distance from the magnet increases. Field lines point away from the south pole and towards the north pole of a magnet. When a magnetic material is made into a magnet, the randomly facing domains all line up to point in the same direction. The Earth acts as though there as a south-type pole at magnetic north and a north-type pole at magnetic south. Explain how an electric bell, a circuit breaker and a relay work What’s Included Lesson Animated PowerPoint for teaching with exit ticket quiz Answer/mark scheme PowerPoint Flip it (pupil writes questions to given answers) Anticipation Guides (combined starter and plenary) Foldable Cut and stick activity. Worksheet to support the PowerPoint Fact sheet Homework plus answers Fact share worksheet Pupil progress self-assessment checklist Exit Ticket Suggested lesson plan showing choices possible between resources Board Game Game board 42 Question cards with questions of varying difficulty Teacher answer sheet Instruction sheet. For more high quality resources visit: Elf Off the Shelf Resources
Magnetism - Magnets and Electromagnets 42 Question Board Game for KS3
penyrheol1penyrheol1

Magnetism - Magnets and Electromagnets 42 Question Board Game for KS3

(0)
With 42 question cards on permanent magnets and electromagnets this is an enjoyable and challenging board game for up to six players per set. It is suitable for all abilities. Included in this Pack Game board 42 Question cards with questions of varying difficulty Teacher answer sheet Instruction sheet. Preparation Photocopy Board onto A3 paper or card (Colour and greyscale versions included). Photocopy question sheets onto paper or card (Colour and greyscale versions included) and cut into question cards. How to Play Highest score of dice starts Pupils take turns and work their way around the board following the instructions in the squares. Certain squares indicate that the pupil takes a question card from the face down pile. If correct they move on 2 spaces. If a player thinks an answer given by an opponent is incorrect they can challenge. If the challenge is correct the challenger moves forward 2 spaces. If the challenge is wrong the challenger moves back two spaces. In the event of a challenge, pupils are encouraged to consult their books but the teacher has a quick-check answer sheet. Prior Knowledge Required Magnetic materials can be made into magnets. Iron, cobalt and nickel and their alloys are magnetic materials. Unlike poles attract and like pole repel. There is an invisible magnetic field around a magnet made up of field lines. Draw the field lines around a bar magnet. The closer together the field lines the stronger the magnetic field. Draw the field lines around two bar magnets with like and unlike poles facing. There are more field lines around the poles where the magnetic field is strongest. The magnetic field strength gets less as distance from the magnet increases. Field lines point away from the south pole and towards the north pole of a magnet. When a magnetic material is made into a magnet, the randomly facing domains all line up to point in the same direction. The Earth acts as though there as a south-type pole at magnetic north and a north-type pole at magnetic south. Explain how an electric bell, a circuit breaker and a relay work More high quality resources available here. Elf Off the Shelf Resources
Magnetism - Magnets and Electromagnets Fully Resourced Lesson Plus Dominoes Game
penyrheol1penyrheol1

Magnetism - Magnets and Electromagnets Fully Resourced Lesson Plus Dominoes Game

2 Resources
A comprehensive and fully resourced lesson on magnets and electromagnets plus an enjoyable yet challenging dominoes game. What’s Covered Magnetic materials can be made into magnets. Iron, cobalt and nickel and their alloys are magnetic materials. Unlike poles attract and like pole repel. There is an invisible magnetic field around a magnet made up of field lines. Draw the field lines around a bar magnet. The closer together the field lines the stronger the magnetic field. Draw the field lines around two bar magnets with like and unlike poles facing. There are more field lines around the poles where the magnetic field is strongest. The magnetic field strength gets less as distance from the magnet increases. Field lines point away from the south pole and towards the north pole of a magnet. When a magnetic material is made into a magnet, the randomly facing domains all line up to point in the same direction. The Earth acts as though there as a south-type pole at magnetic north and a north-type pole at magnetic south. Explain how an electric bell, a circuit breaker and a relay work What’s Included Lesson Animated PowerPoint for teaching with exit ticket quiz Answer/mark scheme PowerPoint Flip it (pupil writes questions to given answers) Anticipation Guides (combined starter and plenary) Foldable Cut and stick activity. Worksheet to support the PowerPoint Fact sheet Homework plus answers Fact share worksheet Pupil progress self-assessment checklist Exit Ticket Suggested lesson plan showing choices possible between resources Game 90 dominos Animated PowerPoint explaining the rules and how to play. For more high quality resources visit: Elf Off the Shelf Resources
Magnetism - Magnets and Electromagnet Dominoes Game - KS3
penyrheol1penyrheol1

Magnetism - Magnets and Electromagnet Dominoes Game - KS3

(0)
A dominoes game with questions and statements on magnets and electromagnets and instead of answers. Prior Knowledge Magnetic materials can be made into magnets. Iron, cobalt and nickel and their alloys are magnetic materials. Unlike poles attract and like pole repel. There is an invisible magnetic field around a magnet made up of field lines. Draw the field lines around a bar magnet. The closer together the field lines the stronger the magnetic field. Draw the field lines around two bar magnets with like and unlike poles facing. There are more field lines around the poles where the magnetic field is strongest. The magnetic field strength gets less as distance from the magnet increases. Field lines point away from the south pole and towards the north pole of a magnet. When a magnetic material is made into a magnet, the randomly facing domains all line up to point in the same direction. The Earth acts as though there as a south-type pole at magnetic north and a north-type pole at magnetic south. Explain how an electric bell, a circuit breaker and a relay work What You Get 90 dominoes Animated PowerPoint explaining the rules and how to play. Rules of the Game Each player selects seven dominoes from the top of the face-down pile and holds them in their hand like playing cards. The player whose surname begins with a letter closest to the letter A starts and play proceed in a clockwise direction. Dominoes can be matched exactly, or a name can be matched with a symbol or descriptions, sketches and circuit diagrams can be matched. If a player thinks a match is wrong, they can challenge. If the challenger is correct, they give a card from their own hand to the challenged player. If the challenged player is correct, they give a card from their hand to the challenger. Pupils are encouraged to check their books for the correct answer and consult their teacher if a consensus is not reached. If a player cannot play a domino, they pick up from the face down pile and can play if possible or add it to their hand. More high quality resources available here. Elf Off the Shelf Resources
Magnetism - Magnets and Electromagnets Fully Resourced Lesson plus Find the Pair Team Game
penyrheol1penyrheol1

Magnetism - Magnets and Electromagnets Fully Resourced Lesson plus Find the Pair Team Game

2 Resources
A comprehensive and fully resourced lesson on magnets and electromagnets plus an enjoyable yet challenging find the pair game. What’s Covered Magnetic materials can be made into magnets. Iron, cobalt and nickel and their alloys are magnetic materials. Unlike poles attract and like pole repel. There is an invisible magnetic field around a magnet made up of field lines. Draw the field lines around a bar magnet. The closer together the field lines the stronger the magnetic field. Draw the field lines around two bar magnets with like and unlike poles facing. There are more field lines around the poles where the magnetic field is strongest. The magnetic field strength gets less as distance from the magnet increases. Field lines point away from the south pole and towards the north pole of a magnet. When a magnetic material is made into a magnet, the randomly facing domains all line up to point in the same direction. The Earth acts as though there as a south-type pole at magnetic north and a north-type pole at magnetic south. Explain how an electric bell, a circuit breaker and a relay work What’s Included Lesson Animated PowerPoint for teaching with exit ticket quiz Answer/mark scheme PowerPoint Flip it (pupil writes questions to given answers) Anticipation Guides (combined starter and plenary) Foldable Cut and stick activity. Worksheet to support the PowerPoint Fact sheet Homework plus answers Fact share worksheet Pupil progress self-assessment checklist Exit Ticket Suggested lesson plan showing choices possible between resources. Game 42 question and answer cards Teacher’s answer sheet. Instruction sheet For more high quality resources visit: Elf Off the Shelf Resources
Magnetism - Magnets and Electromagnets - Find the Pair Team Game for KS3
penyrheol1penyrheol1

Magnetism - Magnets and Electromagnets - Find the Pair Team Game for KS3

(0)
This is an engaging and enjoyable memory game on magnets and electromagnets. Pupils work in teams of three or four. Each team lays out their 42 cards face down in a square and take it in turn to turn over two cards. If the cards are a question and its correct answer, the pupil keeps the pair. If they are not a match they are turned face down and the next pupil gets a turn. This process continues until all cards are matched and the winner is the pupil with the most pairs. If a team member thinks that the selectors pair is not a correct match, they can challenge. Pupils are encouraged to check their books for the correct answer but the teacher also has a quick-check answer sheet. If the challenge is correct, the challenger keeps the pair. **Included in this Pack. ** 42 question and answer cards Teacher’s answer sheet. Instruction sheet Preparation Use double-sided printing to copy 1 set per group of 4 pupils. Sheets could be laminated to enable year-on-year use. Cut sheets into cards. Prior Knowledge Required Magnetic materials can be made into magnets. Iron, cobalt and nickel and their alloys are magnetic materials. Unlike poles attract and like pole repel. There is an invisible magnetic field around a magnet made up of field lines. Draw the field lines around a bar magnet. The closer together the field lines the stronger the magnetic field. Draw the field lines around two bar magnets with like and unlike poles facing. There are more field lines around the poles where the magnetic field is strongest. The magnetic field strength gets less as distance from the magnet increases. Field lines point away from the south pole and towards the north pole of a magnet. When a magnetic material is made into a magnet, the randomly facing domains all line up to point in the same direction. The Earth acts as though there as a south-type pole at magnetic north and a north-type pole at magnetic south. Explain how an electric bell, a relay and a circuit breaker work. More high quality resources available here. Elf Off the Shelf Resources
Magnetism - Magnets and Electromagnets Explained - Classroom, Distance and Blended Learning for KS3
penyrheol1penyrheol1

Magnetism - Magnets and Electromagnets Explained - Classroom, Distance and Blended Learning for KS3

2 Resources
The two packs in this resource allow the same lesson to be taught to students whether they are in a classroom or distance learning at home. It facilitates blended learning and provides equality of opportunity for vulnerable students who are unable to attend school due to Covid-19. The classroom resource consists of an animated 45- slide PowerPoint and 15 varied and exciting printables including a foldable, cut-and-stick and progress check. The one-page flowchart lesson plan shows where choices can be made between the printables so that the teacher can select the activities to suit the exact needs of their class. The distance learning pack consists of a 90 - slide animated PowerPoint which, not only teaches the science but also how to gain maximum benefit from distance learning. The PowerPoint has been designed to replace the teacher by providing structure, sequence, knowledge and answers. Additional worksheets, cut-outs, foldable and progress check provide a familiar medium for students to develop and test their knowledge, continue to develop their literacy skills and use their creativity to organise their learning and assess their progress. These can be printed off by the student or provided by school. There is also a short digital test/homework which can be returned to the teacher. A shortened photocopiable PDF of the PowerPoint is provided to circulate to those pupils without computers. What’s Covered Magnetic materials can be made into magnets. Iron, cobalt and nickel and their alloys are magnetic materials. Unlike poles attract and like pole repel. There is an invisible magnetic field around a magnet made up of field lines. Draw the field lines around a bar magnet. The closer together the field lines the stronger the magnetic field. Draw the field lines around two bar magnets with like and unlike poles facing. There are more field lines around the poles where the magnetic field is strongest. The magnetic field strength gets less as distance from the magnet increases. Field lines point away from the south pole and towards the north pole of a magnet. When a magnetic material is made into a magnet, the randomly facing domains all line up to point in the same direction. The Earth acts as though there as a south-type pole at magnetic north and a north-type pole at magnetic south. Explain how an electric bell, a relay and a circuit breaker work. For more high quality resources visit: Elf Off the Shelf Resources
Magnetism - Magnets and Electromagnets Explained - Distance Learning and Homeschool for KS3
penyrheol1penyrheol1

Magnetism - Magnets and Electromagnets Explained - Distance Learning and Homeschool for KS3

(0)
This is an action-packed distance learning or home school introduction to magnetism. This resource has been designed so that the animated PowerPoint replaces the teacher by providing structure, sequence, knowledge and answers. The worksheets, cut-outs, foldable and progress check provide a familiar medium for students to develop and test their knowledge, continue to develop their literacy skills and use their creativity to organise their learning and assess their progress. The simulated practical takes the student through designing an investigation, a table and drawing a graph. What’s Covered Magnetic materials can be made into magnets. Iron, cobalt and nickel and their alloys are magnetic materials. Unlike poles attract and like pole repel. There is an invisible magnetic field around a magnet made up of field lines. Draw the field lines around a bar magnet. The closer together the field lines the stronger the magnetic field. Draw the field lines around two bar magnets with like and unlike poles facing. There are more field lines around the poles where the magnetic field is strongest. The magnetic field strength gets less as distance from the magnet increases. Field lines point away from the south pole and towards the north pole of a magnet. When a magnetic material is made into a magnet, the randomly facing domains all line up to point in the same direction. The Earth acts as though there as a south-type pole at magnetic north and a north-type pole at magnetic south. Explain how an electric bell, a relay and a circuit breaker work. Resources An animated PowerPoint which guides the student through the lesson by: explaining how to use distance learning effectively; explaining how to use this resource; explaining current, voltage and resistance and the relationship between them; providing the answers to all the worksheets so that the students can mark and correct their work. Four worksheets, and two cut-out activities, the answers to which are in the PowerPoint. A foldable and cut-out activity so that students can record and organise their learning. A checklist for students to use to assess their progress. Digital quick test For those students without internet or a computer or a computer at home a condensed printable copy of the PowerPoint is provided for distribution by school. Ways to Use this Resource Upload PowerPoint and worksheets to school intranet. Students print their own worksheets. Upload PowerPoint and worksheets to school intranet and provide a hardcopy of worksheets for students. Those families who do not wish to collect worksheets or who are in isolation can print the worksheets at home. Students without photocopying facilities are instructed to write their answers in full sentences More high quality resources available here. Elf Off the Shelf Resources
Magnetism - Magnets and Electromagnets Explained for KS3
penyrheol1penyrheol1

Magnetism - Magnets and Electromagnets Explained for KS3

(0)
A comprehensive and enjoyable introduction to magnetism and electromagnets including an animated investigation into how increasing the number of turns on the coil increases the strength of an electromagnet. What’s Covered Magnetic materials can be made into magnets. Iron, cobalt and nickel and their alloys are magnetic materials. Unlike poles attract and like pole repel. There is an invisible magnetic field around a magnet made up of field lines. Draw the field lines around a bar magnet. The closer together the field lines the stronger the magnetic field. Draw the field lines around two bar magnets with like and unlike poles facing. There are more field lines around the poles where the magnetic field is strongest. The magnetic field strength gets less as distance from the magnet increases. Field lines point away from the south pole and towards the north pole of a magnet. When a magnetic material is made into a magnet, the randomly facing domains all line up to point in the same direction. The Earth acts as though there as a south-type pole at magnetic north and a north-type pole at magnetic south. Explain how an electric bell, a circuit breaker and a relay work What’s Included Animated PowerPoint for teaching with exit ticket quiz Answer/mark scheme PowerPoint Flip it (pupil writes questions to given answers) Anticipation Guides (combined starter and plenary) Foldable Cut and stick activity. Worksheet to support the PowerPoint Fact sheet Homework plus answers Fact share worksheet Pupil progress self-assessment checklist Exit Ticket Suggested lesson plan showing choices possible between resources This pack contains fifteen resources and it is intended that the teacher uses them to build their own unique lesson to take account of student ability and time available. Literacy, oracy, self-assessment and peer assessment are all built in to the resources. These features are clearly marked on the comprehensive one-page flow chart lesson plan which shows where the logical choices between resources can be made. More high quality resources available here. Elf Off the Shelf Resources
Forces - The Complete Classroom, Distance and Blended Learning Module for KS3
penyrheol1penyrheol1

Forces - The Complete Classroom, Distance and Blended Learning Module for KS3

18 Resources
Nine action-packed blended learning forces topics including: What is a Force; Weight and Mass; What is Friction: Air Resistance; Balanced and Unbalanced Forces Moments Pressure Speed Hooke’s Law For each topic there are two packs to allow the same lesson to be taught to students whether they are in a classroom or distance learning at home thus facilitating blended learning and providing equality of opportunity for students who are unable to attend school. Each classroom resource consists of an animated PowerPoint ( 13 to 15 slides) and 10 to 15 varied and exciting printables including a foldable, cut-and-stick and progress check. The one-page flowchart lesson plan shows where choices can be made between the printables so that the teacher can select the activities to suit the exact needs of their class. Each distance learning resource has been designed so that the animated PowerPoint replaces the teacher by providing structure, sequence, knowledge and answers. It gives advice on how to use distance learning successfully and guides the learner step-by-step through the topic. The supporting worksheets include cut-outs, foldables digital quick-tests and progress checks to provide a familiar medium for students to develop and test their knowledge, continue to develop their literacy skills and use their creativity to organise their learning and assess their progress. Some topics include a simulated practical which takes the student through designing a table and drawing graphs. For more high quality resources visit: Elf Off the Shelf Resources
Forces - Complete Distance Learning Module for KS3 (Mass, Weight, Friction, Air Resistance, Balanced and Unbalanced Forces, Pressure, Speed, Moments, Hooke's Law)
penyrheol1penyrheol1

Forces - Complete Distance Learning Module for KS3 (Mass, Weight, Friction, Air Resistance, Balanced and Unbalanced Forces, Pressure, Speed, Moments, Hooke's Law)

10 Resources
Nine action-packed distance learning or home school forces topics including: What is a Force; Weight and Mass; What is Friction: Air Resistance; Balanced and Unbalanced Forces; Speed; Moments; Pressure Hooke’s Law Each resource has been designed so that the animated PowerPoint replaces the teacher by providing structure, sequence, knowledge and answers. It gives advice on how to use distance learning successfully and guides the learner step-by-step through the topic. The supporting worksheets include cut-outs, foldables digital quick-tests and progress checks to provide a familiar medium for students to develop and test their knowledge, continue to develop their literacy skills and use their creativity to organise their learning and assess their progress. Some topics include a simulated practical which takes the student through designing a table and drawing graphs. Ways to Use these Resource Upload PowerPoint and worksheets to school intranet. Students print their own worksheets. Upload PowerPoint and worksheets to school intranet and provide a hardcopy of worksheets for students. Those families who do not wish to collect worksheets or who are in isolation can print the worksheets at home. Students without photocopying facilities are instructed to write their answers in full sentences For more high quality resources visit: Elf Off the Shelf Resources
Forces - Classroom, Distance and Blended Learning for KS3
penyrheol1penyrheol1

Forces - Classroom, Distance and Blended Learning for KS3

8 Resources
Four action-packed distance learning or home school forces topics including: moments, speed pressure Hooke’s law For each topic there are two packs to allow the same lesson to be taught to students whether they are in a classroom or distance learning at home thus facilitating blended learning and providing equality of opportunity for vulnerable students who are unable to attend school due to Covid-19. Each classroom resource consists of an animated PowerPoint ( 13 to 15 slides) and 10 to 15 varied and exciting printables including a foldable, cut-and-stick and progress check. The one-page flowchart lesson plan shows where choices can be made between the printables so that the teacher can select the activities to suit the exact needs of their class. Each distance learning resource has been designed so that the animated PowerPoint replaces the teacher by providing structure, sequence, knowledge and answers. It gives advice on how to use distance learning successfully and guides the learner step-by-step through the topic. The supporting worksheets include cut-outs, foldables digital quick-tests and progress checks to provide a familiar medium for students to develop and test their knowledge, continue to develop their literacy skills and use their creativity to organise their learning and assess their progress. Some topics include a simulated practical which takes the student through designing a table and drawing graphs. For more high quality resources visit: Elf Off the Shelf Resources
Forces Distance Learning and Homeschool Module for KS3
penyrheol1penyrheol1

Forces Distance Learning and Homeschool Module for KS3

4 Resources
Four action-packed distance learning or home school forces topics including: moments, speed pressure Hooke’s law Each resource has been designed so that the animated PowerPoint replaces the teacher by providing structure, sequence, knowledge and answers. It gives advice on how to use distance learning successfully and guides the learner step-by-step through the topic. The supporting worksheets include cut-outs, foldables digital quick-tests and progress checks to provide a familiar medium for students to develop and test their knowledge, continue to develop their literacy skills and use their creativity to organise their learning and assess their progress. Some topics include a simulated practical which takes the student through designing a table and drawing graphs. Ways to Use these Resource Upload PowerPoint and worksheets to school intranet. Students print their own worksheets. Upload PowerPoint and worksheets to school intranet and provide a hardcopy of worksheets for students. Those families who do not wish to collect worksheets or who are in isolation can print the worksheets at home. Students without photocopying facilities are instructed to write their answers in full sentences For more high quality resources visit: Elf Off the Shelf Resources
Forces - Speed - Classroom, Distance and Blended Learning for KS3
penyrheol1penyrheol1

Forces - Speed - Classroom, Distance and Blended Learning for KS3

2 Resources
The two packs in this resource allow the same lesson to be taught to students whether they are in a classroom or distance learning at home. It facilitates blended learning and provides equality of opportunity for students who are unable to attend school. The classroom resource consists of an animated 21- slide PowerPoint and 15 varied and exciting printables including a foldable, cut-and-stick and progress check. The one-page flowchart lesson plan shows where choices can be made between the printables so that the teacher can select the activities to suit the exact needs of their class. The distance learning pack consists of a 60- slide animated PowerPoint which, not only teaches the science but also how to gain maximum benefit from distance learning. The PowerPoint has been designed to replace the teacher by providing structure, sequence, knowledge and answers. Additional worksheets, cut-outs, foldable and progress check provide a familiar medium for students to develop and test their knowledge, continue to develop their literacy skills and use their creativity to organise their learning and assess their progress. These can be printed off by the student or provided by school. There is also a short digital test/homework which can be returned to the teacher. A shortened photocopiable PDF of the PowerPoint is provided to circulate to those pupils without computers. What’s Covered Choosing the appropriate units for distance, time and speed. Use of the formula speed = distance/time. Rearrangement of the formula (easily left out if required) Planning an experiment to find speed. Designing a table For more high quality resources visit: Elf Off the Shelf Resources
Forces - Speed- Distance Learning and Homeschool for KS3
penyrheol1penyrheol1

Forces - Speed- Distance Learning and Homeschool for KS3

(0)
This is an action-packed distance learning or home school lesson on Hooke’s Speed. What’s Covered Choosing the appropriate units for distance, time and speed. Use of the formula speed = distance/time. Rearrangement of the formula (easily left out if required) Planning an experiment to find speed. Designing a table This resource has been designed so that the animated PowerPoint replaces the teacher by providing structure, sequence, knowledge and answers. The worksheets, cut-outs, foldable and progress check provide a familiar medium for students to develop and test their knowledge, continue to develop their literacy skills and use their creativity to organise their learning and assess their progress. Resources An animated PowerPoint which guides the student through the lesson by: explaining how to use distance learning effectively; explaining how to use this resource; explaining current, voltage and resistance and the relationship between them; providing the answers to all the worksheets so that the students can mark and correct their work. Four worksheets, and two cut-out activities, the answers to which are in the PowerPoint. A foldable and cut-out activity so that students can record and organise their learning. A checklist for students to use to assess their progress. Digital quick test For those students without internet or a computer or a computer at home a condensed printable copy of the PowerPoint is provided for distribution by school. Ways to Use this Resource Upload PowerPoint and worksheets to school intranet. Students print their own worksheets. Upload PowerPoint and worksheets to school intranet and provide a hardcopy of worksheets for students. Those families who do not wish to collect worksheets or who are in isolation can print the worksheets at home. Students without photocopying facilities are instructed to write their answers in full sentences More high quality resources available here. Elf Off the Shelf Resources
Forces - Hooke's Law - Classroom, Distance & Blended Learning for KS3
penyrheol1penyrheol1

Forces - Hooke's Law - Classroom, Distance & Blended Learning for KS3

2 Resources
The two packs in this resource allow the same lesson to be taught to students whether they are in a classroom or distance learning at home. It facilitates hybrid learning and provides equality of opportunity for students who are unable to attend school. The classroom resource consists of an animated 27- slide PowerPoint and 15 varied and exciting printables including a foldable, cut-and-stick and progress check. The one-page flowchart lesson plan shows where choices can be made between the printables so that the teacher can select the activities to suit the exact needs of their class. The distance learning pack consists of a 65 - slide animated PowerPoint which, not only teaches the science but also how to gain maximum benefit from distance learning. The PowerPoint has been designed to replace the teacher by providing structure, sequence, knowledge and answers. Additional worksheets, cut-outs, foldable and progress check provide a familiar medium for students to develop and test their knowledge, continue to develop their literacy skills and use their creativity to organise their learning and assess their progress. These can be printed off by the student or provided by school. There is also a short digital test/homework which can be returned to the teacher. A shortened photocopiable PDF of the PowerPoint is provided to circulate to those pupils without computers. What’s Covered Each fully resourced lesson includes an animated PowerPoint which: demonstrates deformation as a material changing its shape when acted on buy a force; demonstrates stretching and compression; demonstrates an elastic material regaining its shape after deformation; demonstrates an elastic material failing to regain its shape after the elastic limit is exceeded; guides students through planning a virtual investigation of Hooke’s Law, designing a results table and drawing a conclusion; demonstrates that, for elastic materials within their elastic limit a graph of extension against force is a straight line and confirms Hooke’s Law. For more high quality resources visit: Elf Off the Shelf Resources