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Magnetism and Induction

Magnetism and Induction. NCEA AS 3.6 Text Chapters: 15,16,17. Electromagnetism. Fields are formed around current carrying wires. Solenoids. Fields are formed in solenoids or coils. Induction.

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Magnetism and Induction

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  1. Magnetism and Induction NCEA AS 3.6 Text Chapters: 15,16,17

  2. Electromagnetism • Fields are formed around current carrying wires

  3. Solenoids • Fields are formed in solenoids or coils.

  4. Induction • If a wire is moved through a magnetic field then a voltage can be induced across the ends the wire.

  5. Induction • If the wire is connected to a circuit then current will flow. The direction of induced current is determined by a right hand rule.

  6. Right Hand Slap Rule • v=direction of wire movement • B=direction of magnetic field lines • F= force on a positive charge (ie direction of current flow)

  7. Induction • The size of this induced voltage is given by: • V=BvL • (B=mag field strength, • v=velocity of movement, • L=length of wire in field) This is known as Faraday’s Law

  8. Induced current I Opposing Force F=BIL Direction of movement Induction • The direction of the induced current is such that it creates an opposing force on the motion that is causing it. • This is known as Lenz’s Law

  9. Induction • Induced voltage/current can be made larger if: • The mag field is stronger • The wire is longer • The movement is faster • (Solenoid has an iron core)

  10. Induction • Induction can also occur if it is the magnetic field that is moved, rather than the wire.

  11. Magnetic Flux • The magnetic field in a circuit is measured as magnetic flux Φ • Φ= BxA • B = mag field strength • A = area perpendicular to field • The unit for flux is the Weber Wb

  12. Magnetic Flux • A useful analogy is using a net to catch whitebait in a stream…. • If you don’t hold the net straight up and down, you don’t catch many whitebait!!

  13. Speed v L Faraday’s Law • According to Faraday’s Law, V=BvL • The area of the loop in the field is zero…..

  14. v A L Faraday’s Law • Some time t later, A has changed by • ΔA = (vt x L) • ΔΦ = B x ΔA • ΔΦ = B x v x L x t • But V=BvL • So ΔΦ = V x t

  15. Faraday’s Law (again) • Another way to look at Faraday’s Law is that the induced voltage in a circuit is determined by the rate of change of flux The negative sign is a reminder of Lenz’s Law

  16. Generators • Rather than sliding a loop through a field, it is easier to spin it. • This is how a generator works

  17. Generators • When the coil is horizontal, the induced current is maximum, as the coil is cutting across the field lines at right angles as it moves.

  18. Generators • When the coil is vertical, the induced current is zero, as the coil is moving parallel to the magnetic field lines

  19. B A N S Generators • If we start timing from when the coil is vertical, then at t=0, Φ= BxA

  20. B θ N S A Generators • If the coil rotates with speed ω, then after time t the coil will have turned through angle θ = ωt • The flux will now be Φ= Bcosωt x A

  21. Generators • Faraday’s Law says: • For a coil of N turns:

  22. Generators • The formula for alternating generator voltage is often written as: • Where Vmax=BANω • This produces a voltage-time graph that looks like a sine curve • NB. Similarities to SHM!!

  23. Generators • To generate A.C, slip rings are used…

  24. Generators • To generate D.C, split rings are used.

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