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Brush Up On Magnetism. SN Lines Of Force Lines of Force have direction. We Say that their direction is from north to south. The strength of the field.

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Presentation on theme: "Brush Up On Magnetism. SN Lines Of Force Lines of Force have direction. We Say that their direction is from north to south. The strength of the field."— Presentation transcript:

1 Brush Up On Magnetism

2 SN

3 Lines Of Force Lines of Force have direction. We Say that their direction is from north to south. The strength of the field is represented by how close the lines of force are together. (the stronger the field the closer the lines) SN The field is stronger at the poles

4 SN SN The field between oppite poles on adjacent bar magnets.

5 NS SN X Neutral point Neutral points occur where the sum of the fields is zero With like poles the lines of force are pushed apart. lines of force never cross.

6 THE MAGNETIC FIELD OF THE EARTH The north pole of a free swinging magnet points north

7 Earth’s local magnetic field appears uniform locally. This is how a compass behaves as it is moved across a lab bench This is only the horizontal component of the field

8 There is also a dip angle θ is around 68 0 in the north of England. So a compass on its side points down at this angle. θ

9 Soft iron in the Earth field The Earth’s magnetic field is deviated by “ferromagnetic” materials like iron, nickel or cobalt

10 Current Carrying Wires Have An Associated Magnetic Field Placing a compass at points around a long straight wire reveals the field

11 The concentric field lines around a straight current carrying wire.

12 X The convention for current into the paper (left) and out of the paper (right)

13 The direction of the conventional current is found by the corkscrew rule Current into the paper (i.e. positive terminal at the top)

14 An alternative way of remembering is the handgrip rule

15 The strength of the magnetic field is a vector quantity. In a coil the “sense” (direction) of the field lines are the same and add and the result is a field in which the lines are almost parallel in the centre. COILS

16 Around a helical coil (solenoid) the field is startlingly similar to the field around a bar magnet.

17 The field inside a solenoid An easy way to remember the poles of a solenoid given the direction of the current looking at each end of the coil.

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