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Magnetism and Electromagnetism

Magnetism and Electromagnetism. Edexcel iGCSE Physics. Magnets attract objects made of magnetic materials Magnetic materials include the elements iron, nickel, cobalt, alloys containing some of these such as steel and some of their compounds. Magnets and magnetic materials. iron. nickel.

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Magnetism and Electromagnetism

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  1. Magnetism and Electromagnetism Edexcel iGCSE Physics

  2. Magnets attract objects made of magnetic materials Magnetic materials include the elements iron, nickel, cobalt, alloys containing some of these such as steel and some of their compounds. Magnets and magnetic materials iron nickel cobalt stainless steel

  3. Permanent magnets are made of magnetically HARD materials such as steel. These materials retain their magnetisation once magnetised. TRIPLE ONLY Hard and soft magnetic materials Magnetically SOFT materials, such as iron, lose their magnetisation easily. They suitable for temporary magnets such as electromagnets.

  4. Magnetic poles are the parts of a magnet that exert the greatest force. Magnetic poles occur in pairs usually called north (N) and south (S) Magnetic poles Iron filing are attracted mostly to the poles of a magnet

  5. A magnet suspended so that it can rotate freely horizontally will eventually settle down with one pole facing north and the other south. This is pole is therefore called the ‘north seeking pole’, usually shortened to just ‘north pole’. The magnet has been orientated by the Earth’s magnetic field. A compass is an application of this effect. Why poles are called north and south north

  6. Like poles repel unlike poles attract The law of magnets

  7. A magnetic field is a volume of space where magnetic force is exerted. All magnets are surrounded by magnetic fields. The shape of a magnetic field can be shown by iron filings or plotting compasses. Magnetic fields

  8. Magnetic field around a bar magnet Arrows on the field lines show the direction of the force on a free to move north pole magnetic field line The stronger the magnetic field the denser the magnetic field lines.

  9. Magnetic fields between two bar magnets

  10. A uniform magnetic field exerts a constant force over a region. Such a field will consist of parallel equally spaced magnetic field lines. This type of field can almost be found between a north and south magnetic pole. Producing a uniform magnetic field

  11. The earth’s magnetic field is similar in shape to that around a bar magnet. It is thought to be caused by electric currents flowing through the molten outer core of the Earth. At the present the field pattern is like that with a magnetic SOUTH pole situated somewhere below northern Greenland The Earth’s magnetic field

  12. Magnetism can be induced in a magnetic material if it is placed within a magnetic field. If the material is magnetically hard it will retain its magnetism once removed from the field. Certain rocks in the Earth’s crust such as lodestone have been magnetised in this way by the Earth’s magnetic field. Induced magnetism NS iron bar

  13. Choose appropriate words to fill in the gaps below: Magnetic materials are either hard or ______. Hard magnetic materials such as ______ retain their magnetisation once magnetised. A magnetic _____ is a region where the magnetic force is greatest. Magnetic poles always occur in ______. Like poles _______, unlike attract. A magnetic ______ is a region where magnetic force is exerted. The ________ of the magnetic field around a bar magnet is from north to south. soft steel pole pairs repel field direction WORD SELECTION: pole repel steel pairs field direction soft

  14. Electromagnetism In 1820 Hans Ørsted noticed that a wire carrying an electric current caused a compass needle to deflect. No current, compass points to north Current, compass deflected

  15. Magnetic field patterns around wires1. Straight wire The magnetic field consists of concentric circles centred on the wire. The magnetic field is strongest near the wire. This is shown by the field lines being closest together near to the wire. The strength of the field increases if the electric current is increased.

  16. The right-hand grip rule (for fields) Grip the wire with the RIGHT hand. The thumb is placed in the direction of the electric current. The fingers show the direction of the circular magnetic field.

  17. Complete the diagrams below: Add field arrows Add current direction Add current direction Add field arrows Electric current out of the page Electric current into the page

  18. 2. Flat circular coil Plan view

  19. 3. Solenoid A solenoid is a coil of wire carrying an electric current. The magnetic field is similar in shape to that around a bar magnet. The strength of the field increases with: the electric current the number of turns in the coil S N

  20. The right-hand grip rule (for poles) Grip the coil with the RIGHT hand. The fingers are placed in the direction that the eclectic current flows around the coil. The thumb points towards the north pole end of the coil. N S

  21. Complete the diagrams below: N 1. Locate north 2. Locate south 3. Add current direction S N N 4. Add coils

  22. Electromagnets An electromagnet consists of a current carrying coil wrapped around an iron core.

  23. Uses of electromagnets 1. Scrap yard crane The iron core of the electromagnet is a SOFT magnetic material. When current flows the iron becomes strongly magnetised and so picks up the scrap iron and steel. When the current is turned off the iron loses its magnetisation and so releases the scrap.

  24. 2. The electric bell When the push switch is closed current flows around the circuit turning on the electromagnet. The soft iron armature is pulled towards the electromagnet and the hammer hits the gong. This causes the contact switch to open cutting off the electric current. The spring now pulls the armature back again closing the contact switch. Current now flows again and the hammer hits the gong again. push switch spring electromagnet contact switch soft iron armature hammer gong

  25. Label the diagram of the electric bell below: 1 2 3 4 5 6 7 8 Contact switch

  26. 3. The relay switch A relay switch is a way of using a low voltage circuit to switch remotely a high voltage (and possibly dangerous) circuit. When switch A is closed, the small current provided by the cell causes the electromagnet to become magnetised.. The iron armature is then attracted to the electromagnet causing the springy contact switch B to close in the high voltage circuit. switch A iron armature electromagnet hinge springy contact switch B to high voltage circuit

  27. A B Domestic circuit breakers 4. Circuit breaker 2 Current normally flows between terminals A and B through the contact and the electromagnet. When the current in a circuit increases, the strength of the electromagnet will also increase. This will pull the soft iron armature towards the electromagnet. As a result, spring 1 pulls apart the contact and disconnecting the circuit immediately, and stopping current flow. 1 The reset button can be pushed to bring the contact back to its original position to reconnect the circuit

  28. Choose appropriate words to fill in the gaps below: A wire carrying an electric ______ produces a magnetic field. This field increases in ________ if the current is increased. A ________ is a coil of wire carrying an electric current. The field produced increases in strength if the number of _____ in the coil is increased or if _____ is placed inside the coil. An ____________ consists of a coil of a solenoid wrapped around an iron core. Iron is a ______ magnetic material that loses its magnetisation once the current in the coil is switched off. current strength solenoid turns iron electromagnet soft WORD SELECTION: solenoid iron strength turns electromagnet current soft

  29. DC Motor

  30. Electromagnetic induction

  31. AC Generator

  32. Transformer

  33. Bar magnet field - Fendt Faraday Electromagnetic Lab - PhET - Play with a bar magnet and coils to learn about Faraday's law. Move a bar magnet near one or two coils to make a light bulb glow. View the magnetic field lines. A meter shows the direction and magnitude of the current. View the magnetic field lines or use a meter to show the direction and magnitude of the current. You can also play with electromagnets, generators and transformers! Field around a straight conductor - Fendt Magnetic field around a straight wire / coil / solenoid - NTNU Relay demonstration - Freezeway.com Electric Bell demonstration - Freezeway.com BBC KS3 Bitesize Revision: Bar Magnets Magnetic Fields Electromagnets Using Electromagnets - includes an applet showing how an electric bell works Online Simulations

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