The wing span of an aeroplane is 36 m. if the plane is flying at `400kmh^(-1)`, the emf induced between the wings tips is (Assume `V=4xx10^(-5)T`)

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^(@) ?

The wing span of an aeroplane is 20 metre. It is flying in a field, where the verticle component of magnetic field of earth is 5xx10^(-5) tesla, with velocity 360 km//h . The potential difference produced between the blades will be

In northern hemisphere, an airplane flies with a speed of 1000 km hr^(-1) towards east at constant height. Calculate the emf induced between the tips of the wings 50 m apart. The vertical component of Earth's magnetic field is 2 xx 10^(-5) T .

A jet plane is travelling west at 450 m//s . If the horizontal component of earth's magnetic field at the place is 4 xx 10^(-4) T and the angle of dip is 30^(@) , find the e.m.f. induced between the ends of wings having a spam fo 30 m.

The velocity of the wind over the surface of the wing of an aeroplane is 80ms^(-1) and under the wing 60ms^(-1) . If the area of the wing is 4m^(2) , the dynamic lift experienced by the wing is [density of air =1.3kg.m^(-3) ]

Each of the two wings of an aeroplane has area 30m^(2) . The speed of the air on the upper and lower surfaces of theon the wing of aeroplane are 90 ms^(-1) and 70 ms^(-1) respectively. If the plane is in level flight at constant speed, find the uplift and the mass of the aeroplane. Given density of air =1.29 kg m^(-3) .

A metal rod 1/(sqrt(pi)) m long rotates about one of its ends in a plane perpendicular to a magnetic field of induction 4 xx 10^(-3)T . If the emf induced between the ends of the rod is 16 mv, then the number of revolutions made by the rod per second is

The speed of the wind passing over the wings of a small aeroplane is 70 m/s and below the wing is 60 m/s. If the mass of the plane is 1000 kg and the area of wing is 14 m^(2), then what will be ther net vertical force on the aeroplane ? ? (Density of air =1.2 kg//m^(3) and g=10 m//s^(2))

A helicopter rise verticaly with a speed of 10ms^(-1) . If helicopter has a length of 10 m and the horizontal component of the earth's magentic field is 1.5 xx 10^(-3) Wbm^(2) , the emf induced between the tip of the nose and the tail of the helicopter, is

A straight rod 2m long is placed in an aeroplane in the east-west direction. The aeroplane lifts itself in the upward direction at a speed of 36 kmh^(-1) . Find the potential difference between the two ends of the rod if the vertical component of earth's magnetic field is (1)/(4 sqrt(3)) gauss and angle of dip= 30^(@)