8 j magnets & electromagnets (boardworks)

46 %
54 %
Information about 8 j magnets & electromagnets (boardworks)

Published on February 4, 2014

Author: cartlidge

Source: slideshare.net

KS3 Physics 8J Magnets and Electromagnets 1 of 29 20 © Boardworks Ltd 2004 2005

Contents 8J Magnets and Electromagnets Magnetic materials Magnetic fields Electromagnets Summary activities 1 of 29 20 2 © Boardworks Ltd 2004 2005

Magnetic materials Which of the metals below are magnetic metals? iro n (F e) co ba lt ne ag m 1 of 29 20 3 co pp er i um s ( g) M gold (A (C o) (Cu ) u) ni ck z c (Zn) in silver (Ag) lum a el (N i) (Al) nium i © Boardworks Ltd 2004 2005

Magnetic materials A magnetic material is attracted to a magnet. Only iron (Fe), nickel (Ni) and cobalt (Co) are magnetic. S N N i Co Fe Au Mg 1 of 29 20 4 Cu Ag Al Zn © Boardworks Ltd 2004 2005

Contents 8J Magnets and Electromagnets Magnetic materials Magnetic fields Electromagnets Summary activities 1 of 29 20 5 © Boardworks Ltd 2004 2005

Forces between magnets – experiment 1 of 29 20 6 © Boardworks Ltd 2004 2005

What is a magnetic field? The region around a magnet where it has a magnetic effect is called its magnetic field. When a magnetic material is placed in a magnetic field it will experience a force. S N The iron filings feel the effect of the magnetic field and show the direction of the forces in this region. 1 of 29 20 7 © Boardworks Ltd 2004 2005

Shape of a magnetic field What is the shape and direction of the lines of force in the magnetic field around a bar magnet? strongest field at poles N S strongest field at poles weakest field further away from poles Where is the magnetic field strongest? 1 of 29 20 8 © Boardworks Ltd 2004 2005

Viewing magnetic fields: N poles together Bring the north poles of two bar magnets together. S N N S What happens to the magnets? Next, bring the two north poles as close to each other as possible and place a piece of paper on top of the magnets. Carefully scatter iron filings onto the paper. Draw the pattern created by the iron filings. 1 of 29 20 9 © Boardworks Ltd 2004 2005

Magnetic field pattern: N poles together What do you notice about the pattern of the lines of force in the region between the two north poles? S 1 of 20 10 of 29 N N S © Boardworks Ltd 2004 2005

Viewing magnetic fields: N and S poles together Bring the north and south poles of two bar magnets together. S N S N What happens to the magnets? Next, put the north and south poles close to each other, without letting them touch, and place a piece of paper on top. Carefully scatter iron filings onto the paper. Draw the pattern created by the iron filings. 1 of 20 11 of 29 © Boardworks Ltd 2004 2005

Magnetic field pattern: N and S poles together What do you notice about the pattern of the lines of force in the region between the north and south poles? S N S N How does this pattern compare with the pattern between the two north poles? 1 of 20 12 of 29 © Boardworks Ltd 2004 2005

Magnetic fields – summary 1. When two like poles (e.g. two north poles or two south poles) are put together, they repel each other. 2. When two unlike poles (e.g. a north and a south pole) are put together, they attract each other. 3. Scattering iron filings around a bar magnets makes it possible to see the lines of force of the magnetic field. 1 of 20 13 of 29 © Boardworks Ltd 2004 2005

Making a magnet A magnet can be made by magnetizing a material which is attracted to a magnet, e.g. a paper clip. There are three methods that can be used to make a magnet: Stroke a magnet along the paperclip from one end to the other and then starting from the same place, repeat the movement. The more times this is done, the more magnetic the clip becomes. Hold a nail in a magnetic field and hit it with a hammer. Put a magnetic material in a strong magnetic field. 1 of 20 14 of 29 © Boardworks Ltd 2004 2005

Contents 8J Magnets and Electromagnets Magnetic materials Magnetic fields Electromagnets Summary activities 1 of 20 15 of 29 © Boardworks Ltd 2004 2005

Making an electromagnet When electricity is passed through a coil of wire, the coil has a magnetic field around it. This is called an electromagnet. If the coil of wire is wrapped around a piece of iron, such as an iron nail, the magnetic field gets stronger. 1 of 20 16 of 29 © Boardworks Ltd 2004 2005

Investigating an electromagnet An iron core at the centre of a coil of wire, increases the strength of an electromagnet. Two experiments can be carried out to investigate the other factors that can affect the strength of an electromagnet: 1. Investigate how the number of coils affects the number of paper clips attracted to an electromagnet – keep the current the same in this experiment. 2. Investigate how the size of the current affects the number of paper clips attracted to an electromagnet – keep the number of coils the same in this experiment. 1 of 20 17 of 29 © Boardworks Ltd 2004 2005

Investigating an electromagnet – results 1 Number of coils Number of paper clips attracted 0 0 20 8 40 18 60 31 80 46 Remember – keep the current the same throughout this experiment! 1 of 20 18 of 29 © Boardworks Ltd 2004 2005

Investigating an electromagnet – results 2 Current (A) Number of paper clips attracted 0 0 1 12 2 23 3 38 4 49 5 60 Remember – keep the number of coils the same throughout this experiment! 1 of 20 19 of 29 © Boardworks Ltd 2004 2005

Investigating an electromagnet – graph 1 Graph to show how the number of coils affects the strength of an electromagnet number of clips attracted 50 40 30 20 10 0 0 1 of 20 20 of 29 20 40 60 number of coils 80 100 © Boardworks Ltd 2004 2005

Investigating an electromagnet – graph 2 number of clips attracted 70 Graph to show how the current affects the strength of an electromagnet 60 50 40 30 20 10 0 0 1 of 20 21 of 29 1 2 3 current (A) 4 5 © Boardworks Ltd 2004 2005

Using electromagnets – scrap yards A large electromagnet is used in a scrap yard to pick up and move heavy pieces of scrap metal. What metals would the electromagnet attract? What advantages does an electromagnet have over a permanent magnet? 1 of 20 22 of 29 © Boardworks Ltd 2004 2005

Using electromagnets – door bells The circuit for a door bells includes an electromagnet. 1 of 20 23 of 29 © Boardworks Ltd 2004 2005

Using electromagnets – relay Lifts, cars and other large electrical machines use high currents. A relay, which includes an electromagnet, is used to allow a small current in one circuit to control a large current in another circuit. 1 of 20 24 of 29 © Boardworks Ltd 2004 2005

Electromagnets – summary 1. When electricity is passed through a coil of wire, the coil behaves like a magnet and has a magnetic field around it – this is an electromagnet. 2. There are three ways to make an electromagnet stronger:  wrap the coil of wire around an iron core;  increase the number of coils;  increase the size of the current. 3. An electromagnet can be easily turned on and off. This is why electromagnets can be used in scrapyards and as switches in electrical devices. 1 of 20 25 of 29 © Boardworks Ltd 2004 2005

Contents 8J Magnets and Electromagnets Magnetic materials Magnetic fields Electromagnets Summary activities 1 of 20 26 of 29 © Boardworks Ltd 2004 2005

Glossary attraction – The force that pulls things together, e.g. opposite poles of two magnets. electromagnet – A magnet made by passing electricity through a coil of wire, which often has a core inside. magnet – An object that has a magnetic field and can attract magnetic materials. magnetic field – The area around a magnet where its magnetic force can be felt. magnetic materials – Materials that are attracted to a magnet, e.g. iron, cobalt and nickel. magnetism – The non-contact force of a magnetic field. poles – The parts of a magnet where its magnetic field is strongest. repulsion – The force that pushes things away from each other, e.g. similar poles of two magnets. 1 of 20 27 of 29 © Boardworks Ltd 2004 2005

Anagrams 1 of 20 28 of 29 © Boardworks Ltd 2004 2005

Multiple-choice quiz 1 of 20 29 of 29 © Boardworks Ltd 2004 2005

Add a comment

Related pages

8 j magnets & electromagnets (boardworks) - Education

Share 8 j magnets & electromagnets (boardworks) ... Git j club magnets in GIT. ... 8 j magnets and electromagnets (whs)
Read more

8J Magnets and Electromagnets - Documents

... students to understand Magnets and Electromagnets. This is a PowerPoint Presentation made by Boardworks to help KS3 ... 7. Neodymium Magnets 8 ...
Read more

Electromagnets - Science - documents

8 j magnets & electromagnets (boardworks) 8 j magnets & electromagnets (boardworks) Magnets and electromagnets - lesson 1. Login or Join. Processing
Read more

8J Magnets and Electromagnets - 7th Grade Science

Title: 8J Magnets and Electromagnets Subject: KS3 Physics Author: Boardworks Ltd Last modified by: User Created Date: 7/23/2000 2:30:27 PM Document ...
Read more

⚡Presentation "© Boardworks Ltd 2005 KS4 Electricity ...

© Boardworks Ltd 2005 KS4 Electricity ... © Boardworks Ltd 2005 Electromagnets A coil of wire ... 2014. 2 of 8© Boardworks Ltd 2014 What are magnets?
Read more

Unit 8J Magnets and Electromagnets - Wikispaces

Unit 8 J: Magnets and Electromagnets ... reverse field of a stronger magnet. Electromagnets:
Read more

Electromagnets | LinkedIn

View 993 Electromagnets posts ... Circular Electromagnets Views 8 views. ... Holding electromagnet lift solenoid Electric lifting magnet ...
Read more

8J. Magnets and electromagnets - Links 4 Science: Useful ...

8J. Magnets and electromagnets POWERPOINTS. Additional PowerPoint. WORKSHEETS ETC. science quiz word search crossword Keywords Summary Sheets ...
Read more

Boardworks | LinkedIn

Customer Relations Director at Boardworks Ltd, Internal Sales Manager at Boardworks Ltd, Strategic Projects Manager at Boardworks Ltd,... Education
Read more