Two thick wires and tow thin wires, all of same material and same length from a squre in the three different ways P, Q and R as shown. The current flowing through the arrangement is i. Let `B_(P), B_(Q) and B_(R)` represent the magnetic field at the centre of square in the three cases, then

Two thick wires and two thin wires, all of the same materais and same length from a square in the three differenct ways, P,Q and R as shwon in figure with current connection shown, the magneitc feidl at the centre of the square is zero in cases.

Two thick wires and two thin wires, all of the same materais and same length from a square in the three differenct ways, P,Q and R as shwon in figure with current connection shown, the magneitc feidl at the centre of the square is zero in cases.

The figure shows two infinite parallel sheets of current, with current per unit length lamda_(1) and lamda_(2) . If B_(P), B_(Q) and B_(R) represent the magnetic field at the points P, Q and R respectively, then

Two identical wires A and B , each of length 'l', carry the same current I . Wire A is bent into a circle of radius R and wire B is bent to form a square of side 'a' . If B_(A) and B_(B) are the values of magnetic field at the centres of the circle and square respectively , then the ratio (B_(A))/(B_(B)) is :

Two identical wires A and B , each of length 'l', carry the same current I . Wire A is bent into a circle of radius R and wire B is bent to form a square of side 'a' . If B_(A) and B_(B) are the values of magnetic field at the centres of the circle and square respectively , then the ratio (B_(A))/(B_(B)) is :

A rectangular loop of metallic wire is of length a and breadth b and carries a current i. The magnetic field at the centre of the loop is

Four very long wires are arranged as shown in the figure, so that their cross - section forms a square, with connections at the ends so that current I flow through all four wires. Length of each side of the formed such square is b. The magnetic field at the central point P (centre of the square) is

The strain stress curves of three wires of different materials are shown in the figure. P, Q and R are the elastic limits of the wires. The figure shown that

The figure shows three indentical current carryng square loops A, B and C . Identify the correct statement related to magnetic field B at the centre O of the square loop. Current in each wire is I.

A circular coil 'A' has a radius R and the current flowing through it is I.Another circular coil 'B' has a radius 2R and if 2I is the current flowing through it then the magnetic fields at the centre of the circular coil are in the ratio of