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Generator and Transformer. Moving Conductor If a straight conductor is moved in a path perpendicular to a magnetic field, a current is induced in the.

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Presentation on theme: "Generator and Transformer. Moving Conductor If a straight conductor is moved in a path perpendicular to a magnetic field, a current is induced in the."— Presentation transcript:

1 Generator and Transformer

2 Moving Conductor If a straight conductor is moved in a path perpendicular to a magnetic field, a current is induced in the conductor No current flows though since not a loop Induced emf  = B l v l – length of conductor v – velocity of conductor

3 Example An airplane travels at 1000 km/hr in region where the Earth’s magnetic field in 5.0 x 10 -5 T. What is the emf induced between the wing tips that are 70m apart?

4 Generators (Dynamo) Transforms mechanical energy into electric energy Coil of wire spins in the presence of a permanent magnetic field Induces are current in the coil Current produced actually fluctuates as the coils position in the field changes Produces a current that switches direction every half a rotation – Called Alternating Current (AC)

5 Moving Electricity How does electric energy transmit over large distances? Much less energy is lost when it travels at a higher V and lower I

6 Transformer Device that changes voltages Two coils around an iron core Current supplied to the primary coil induces a current in the secondary coil By varying the number of windings in the coils you can vary the potentials

7 Equation

8 Types Step-up – more windings on the secondary coil increases the voltage Step-down – less windings on the secondary coil decreases the voltage Transformers work only on AC current. Why?

9 Transportation Electric energy is stepped up for transmission and then stepped down for household use

10 Problem 1 A metal airplane with a wing span of 30m flies horizontally at a constant speed of 320 km/h in a region where the Earth’s magnetic field is 5.0 x 10 -5 T. What is the induced emf across its wing tips?

11 Problem 2 A 20 cm long metal rod is moving at a speed of 10 m/s in a magnetic field of 0.30 T. Find a) the induced emf in the rod b) the current in the rod

12 Problem 3 An ideal transformer steps 8.0 V up to 2000 V, and the 4000 turn secondary coil carries a current of 2.0 A. Find a) the number of turns in the primary coil. b) the current in the primary coil

13 Problem 4 The primary coil of an ideal transformer has 720 turns, and the secondary coil has 180 turns. If the primary coil carries 15 A at a voltage of 120 V, for the secondary coil what are the a) voltage b) current

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