A horizontal telephone wire 1 km long is lying along east-west in earth's magnetic field. If falls freely to the ground from a height of 10 m. Calculate the e.m.f. induced in the wire on striking the ground. Given horizontal component of earth's field is 0.32 gauss.

A horizontal telephone wire 10^(3) m long is lying along east west in earth's magnetic field. It falls freely to the ground from a height of 10m. The emf induced in the wire when the wire strikes emf induced in the wire when the wire strikes the ground will be (B_(H)=0.32xx10^(-4)T,g=9.8m//s^(2))

Calculate earth's magnetic field at a place where angle of dip delta is 60^(@) and horizontal component of earth's magnetic field is 0.3 G

A wheel with 15 metallic spokes each 60 cm long is roated at 360 rpm in a plane normal to the horizontal component of earth's magnetic field. The angle of dip at that place 60^(@) . If the e.m.f. induced between the rim of the wheel and the axle is 400 m mV, calculate horizontal component of earth's magnetic field at the place. How will the induced e.m.f. change. if number of spokes is increased ?

The horizontal telegraph wire 100 m long, oriented along magnetic east west falls freely under gravity to the ground with a speed of 20 cm/s. the horizontal component of earth's magnetic field is 4.0xx10^(-5) tesla. The emf induced in the wire at the instant, the wire strikes the gound is

A horizontal wire 0.8 m long is falling at a speed of 5 m//s perpendicular to a uniform magnetic field of 1.1 T , which is directed from east to west. Calculate the magnitude of the induced ernf. Is the north or south end of the wire positive?

Vertical component of earth's magnetic field at a place is sqrt3 times its horizontal component. If total intensity of earth's magnetic field at the place is 0*4Gauss , find (i) angle of dip (ii) horizontal component of earth's magnetic field.

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 conductor of length 1.0 m falls freely under gravity from a heigth of 10 m so that it cuts the lines of force the horizontal component of earth's magnetic field of 3 xx 10 (-5) Wb m ^(-2) . Find the emf induced in the conductor .

Calculate the horizontal component of earth's magnetic field at place, where angle of dip is 30^@ . Given vertical component of earth's field at the place is 0*12sqrt3xx10^-4T .

A conductor of length 2.0m is falling freely under gravity from a height of 15 m so that it cuts the magnetic lines of force of the horizontal component of Earth's magnetic field of strength 0.3 gauss. Calculate the emf induced across the conductor.