Consider a current carrying wire (current I) in the shape of a circle. Note that as the current progresses along the wire, the direction of J(current density) changes in an exact manner, while the current I remains unaffected. The agent that is essentially responsible for

Consider a current carrying wire (current I) in the shape of a circle. Note that as the current progresses along the wire, the direction of vecJ (current density) changes in an exact manner, while the current I remains unaffected. The agent that is essentially responsible for is

Consider a current carrying wire (current I) in the shape of a circle. Note that as the current progresses along the wire, the direction of vecJ (current density) changes in an exact manner, while the current I remains unaffected. The agent that is essentially responsible for is

Consider a current carryiing wire (current I) in the shape of a circle

A current carrying wire produces in the neighbourhood

A current- carrying straight wire is kept along the axis of a circular loop carrying a current. The straight wire

A current carrying wire is placed along east and west in a magnetic field directed north wards. If the current in the wire is directed east wards, the direction of force on the wire is

Predict the direction of induced current in metal rings 1 and 2 when current I in the wire is steadily decreasing .

A current carrying wire is placed below a coil in its plane, with current flowing as shown. If the current increases.

Predict the directions of induced currents in metal rings 1 and 2 lying in the same plane where current I in the wire is increasing steadily.

A current carrying wire AB of the length L is turned along a circle, as shown in figure. The magnetic field at the centre O.