A square loop of side and a straight infinity conducor are placed in the same plane with two sides of the squre parallel to the conductor. The resistance of the loop is R. The loop is turned through `180^(@)` about the axis . The electric charge that flows in the square loop is `(mu_(0)I_(a))/(2piR)1m |(na+b)/(b)|`. Find the value of n.

A square loop of side a and straight infinity conductor are placed in the same plane with two sides of the square parallel to the conductor. The resistance of the loop is R. The loop is turned through 180^(@) about the axis . The electric charge that flows in the square loop is (mu_(0)I_(a))/(2piR)1m |(na+b)/(b)| . Find the value of n.

A square loop of side as and a straight long wire are placed in the same plane as shown in figure. The loop has a resistance R and inductance L . The frame is turned through 180^@ about the axis OO^' . What is the electric charge that flows through the loop?

A square loop of side as and a straight long wire are placed in the same plane as shown in figure. The loop has a resistance R and inductance L . The frame is turned through 180^@ about the axis OO^' . What is the electric charge that flows through the loop?

A square loop PQRS of side 'a' and resistance 'r' is placed near an infinitely long wire carrying a constant current I . The sides PQ and RS are parallel to the wire. The wire and the loop are in the same plane. The loop is rotated by 180^(@) about an axis parallel to the long wire and passing through the mid points of the side QR and PS . The total amont of charge which passes through any point of the loop during rotation is:

A circular wire loop of radius R is placed in the x-y plane centered at the origin O. A square loop of side a(altltR) having two turns is placed with its centre at =sqrt(3)R along the axis of hte circular wire loop, as shown in figure. The plane of the square loop makes an angle of 45^(@) with respect to the z-axis. If the mutual inductance between the loops is given bu (mu_(0)a^(2))/(2^(p//2)R) , then the value of p is

A circular wire loop of radius R is placed in the x-y plane centered at the origin O. A square loop of side a(altltR) having two turns is placed with its centre at =sqrt(3)R along the axis of hte circular wire loop, as shown in figure. The plane of the square loop makes an angle of 45^(@) with respect to the z-axis. If the mutual inductance between the loops is given bu (mu_(0)a^(2))/(2^(p//2)R) , then the value of p is

A circular wire loop of radius R is placed in the x-y plane centered at the origin O. A square loop of side a (altltR) having two turns is placed with its centre at =sqrt(3)R along the axis of hte circular wire loop, as shown in figure. The plane of the square loop makes an angle of 45^(@) with respect to the z-axis. If the mutual inductance between the loops is given bu (mu_(0)a^(2))/(2^(p//2)R) , then the value of p is

A square wire frame ( initially current is zero) with side a and a straight conductor carrying a constant current I are located in the same plane (figure). The inductance and the resistance of the frame are equal to L and R respectively. The frame was turned through 180^(@) about the axis OO' separated from the current - carrying conductor by a distance b=2a. The total electric charge having flown through the frame if i=0 at t=0 in the loop is equal to (mu_(0)aI)/(2piR)lnx . Find the value of x.

A square wire frame ( initially current is zero) with side a and a straight conductor carrying a constant current I are located in the same plane (figure). The inductance and the resistance of the frame are equal to L and R respectively. The frame was turned through 180^(@) about the axis OO' separated from the current - carrying conductor by a distance b=2a. The total electric charge having flown through the frame if i=0 at t=0 in the loop is equal to (mu_(0)aI)/(2piR)lnx . Find the value of x.