In the shown arrangement magentic field at P is :

The electric field intensity at P and Q, in the shown arrangement, are in the ratio

For the arrangement shown in Fig. determine the magnetic field at centre O.

Two perpendicular infinite wires are carrying current i as shown in the figure. The magnetic field at point P is :

In the figure theta = tan ^(-1) (sqrt2), then the correct direction of the magnetic field at P can be shown by the arrow

Two long parallel current carrying conductors 30 cm apart having current each of 10 A in opposite direction, then value of magentic field at a point of 10 cm between them, from any of the wire.

Magentic meridian is a

Two long thin wires ABC and DEF are arranged as shown in Fig. They carry equal currents I as shown. The magnitude of the magnetic field at O is

In the figure shown below each battery has emf = 5 V. Then the magnetic field at P is

Three identical long solenoid P,Q and R are connected to each other as shown in fig. If the magnetic field at the centre of P is 2.0T, what would be the field (inT) at the centre of Q? Assume that the field due to any solenoid is confined within the volume of that solenoid only.

All the surface and pulleys are frictionless in the shown arrangement. Pulleys P and Q are massless .The force applied by clamp on pulley P is