A horizontal conducting rod 10 m long extending from east to west is falling with a speed of `5.0 m//s` at right angles to the horizontal component of earth's magnetic field, `0.3 xx 10^(-4) Wb//m^(2)`. Find the instantaneous value of e.m.f. induced in the rod.

(a) Draw a labelled diagrame of an ac generator. Obtain the expression for the emf induced in the rotating coil of N turns each of cross-sectional are A, in the presence of a magnetic field overset(to) (B) . (b) A horizonatal conducting rod 10m long extending from east to west is falling with a speed 5.0 ms ^(-1) at right angles to the horizontal component of the Earth's magnetic fields. 0.3 xx 10^(-4) Wb m^(-2) . Find the instantaneous value of the emf induced in the rod .

A horizontal straight wire 20 m long extending from east to west falling with a speed of 5.0 m//s , at right angles to the horizontal component of the earth’s magnetic field 0.30 × 10^(–4) Wb//m^(2) . The instantaneous value of the e.m.f. induced in the wire will be

A horizontal straight wire 10 m long extending from east to west is falling with a speed of 5.0 ms^(-1) at right angle to the horizontal component of the Earth's magnetic field 0.3 xx 10 ^(-4)Wb m^(2) . (a) What is the instantaneous value of the emf induced in the wire? (b) What is the direction of the emf? (c) Which end of the wire is at the higher electrical potential?

A 10 m long horizontal wire extends from North east to South East. It is falling with a speed of 5.0 ms^(-1) , at right angles to the horizontal component of the earth's magnetic field, of 0.3xx10^(-4)Wb//m^(2) . The value of the induced emf in wire is :

A horizontal straight wire 5 m long extending from east to west falling freely at right angle to horizontal component of earth’s magnetic field 0.60 times 10^(–4) Wbm^(–2) . The instantaneous value of emf induced in the wire when its velocity is 10 ms^(–1) is _________ times 10^(–3) V .

A metre gauge train is running towards north with a speed of 20 m//s . If the vertical component of earth's magnetic induction is 3 xx 10^(-4) Wb//m^(2) , then the e.m.f. induced at the end of the axle is