: A conductor of 2 m length moves with a uniform velocity of 1.27 m/sec under a magnetic field having a flux density of 1.2 Wb/m² (tesla). Calculate the magnitude of induced e.m.f. if conductor moves, i) at right angles to axis of field. ii) at an angle of 60° to the direction of field.

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: A conductor of 2 m length moves with a uniform velocity of 1.27 m/sec
under a magnetic field having a flux density of 1.2 Wb/m² (tesla). Calculate the magnitude
of induced e.m.f. if conductor moves,
i) at right angles to axis of field.
ii) at an angle of 60° to the direction of field.
Transcribed Image Text:: A conductor of 2 m length moves with a uniform velocity of 1.27 m/sec under a magnetic field having a flux density of 1.2 Wb/m² (tesla). Calculate the magnitude of induced e.m.f. if conductor moves, i) at right angles to axis of field. ii) at an angle of 60° to the direction of field.
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