A tangent galvonnometer has a coil 50turns and a radius of 20cm. The horizontal component of earth's magnetic field is `B_(H)=3xx10^(-5)`. What will be the current which gives a deflection of `45^(@)`?

A coil of a tangent galvanometer of diametre 0.24 m has 100 turns. If the horizontal component of Earth's magnetic field is 25 xx 10^(-6) T then, calculate the current which gives a deflection of 60^(@) .

The horizontal component of the earth's magnetic field is 3.6 xx 10^(-5) T where the dip is 60^@ . Find the magnitude of the earth's magnetic field.

A tangent galvanometer shown a deflection of 45^@ when 10 mA of current is passed through it. If the horizontal component of the earth's magnetic field is B_H = 3.6 xx 10^(-5) T and radius of the coil is 10cm , find the number of turns in the coil.

Shows a metallic wire of resistance 0.20 Omega sliding on a horizontal, U shaped metallic rail The separation between the parallel arms is 20 cm. jAn electric current of 2.0 mu A passes through the wire when it is slid at a rate of 20cm s ^(-1) . If the horizontal component of the earth's magnetic field is 3.0 X 10^(-5) T, calculate the dip at the place.

At a place, the horizontal component of earth's magnetic field is B and angle of dip is 60^(@) . What is the value of horizontal component of the earth's magnetic field at equator ?

A short magnet oscillates in a vibration magnetometer with a time period of 0.10 s where the horizontal component of earth's magnetic field is 24 mu T . An upward current of 18 A is established in the vertical wire placed 20 cm east of the magnet . Find the new time period.

A current - carrying circular coil of 100 turns and radius 5.0 cm produces a magnetic field of (6.0 xx 10 ^-5) T at its centre. Find the value of the current.