An aeroplane is flying horizontally with a velocity of 360Km/hr. The distance between the tips of wings is 50m. If the vertical component of earth's magnetic field is `4xx10^(-4)T`, induced EMF across the wings is:

An aeroplane is flying horizontally with a velocity of 360 km//h . The distance between the tips of the wings of the aeroplane is 50 m. The vertical component of the earth's magnetic field is 4 xx 10^-4 wb//m^2 . The enduced e.m.f. Is

Motion of a conductor in a magnetic field induces an emf across its ends.An aeroplane is flying horizontally from west to east with a velocity of 720 km/h. Calculate the emf. induced between the ends of ts wings having a span of 25m. The vertical component of earth.s magnetic field at the place is 2.19*10^-5 T

The distance between the extremities of the two wings of an aeroplane is 30m. It is flying horizontally with a velocity of 1080km .h^(-1) . The vertical component of earth's magnetic field in that region is 4.5xx10^(-5)T . Find the emf induced across the extremities of the two wings.

The wings of an aeroplane are I0m apart. The plane is moving horizontally towards the north with a velocity of 200m//sec at a place where the vertical component of earth's magnetic field is 0.5xxI0^(-4)T . The induced emf set up between the tips of the wings is

The wing span of an aeroplane is 40m. The plane is flying horizontally due north at 360 km/h. What is the potential difference developed between the wing-tips if the horizontla component of the Earth's magnetic field B_(h) = 3.2 xx 10^(-5) T and the angle of dip at the place is 60^(@) ?

An aeroplane, in which the distance between the tips of thie wings is 50m, is flying horizontally with a speed of 360 km//hour , over a place where the vertical component of earth's magnetic field is 2.0 xx 10^(-4) tesla. The potential difference between the tips of the wings would be