A circular loop of radius `R`, carrying current `I`, lies in `x-y` plane with its center at origin. The total magnetic flux through `x-y` plane is

A circular loop of radius R , carrying I , lies in x- y plane with its origin . The total magnetic flux through x-y plane is

A circular loop of radius R , carrying I , lies in x- y plane with its origin . The total magnetic flux through x-y plane is

(A) : A circular loop carrying current lies in XY plane with its centre at origin will have a magnetic flux in negative Z-axis. (R) : Magnetic flux direction is independent of the direction of current in conductor.

A circular wire loop of radius R is placed in the X-Y plane with its centre at the origin. The loop carries a current I in the clockwise direction when viewed from a point on the positive Z-axis. A uniform magnetic field vecB=B_(0)((hati+sqrt(3)hatj)/2) exists in the region x gt (R sqrt(3))/2 . The magnitued of the magnetic force on the loop due to the magnetic field is (B_(0)IR)/n . The value of n is______________.

A current carrying circular loop of radius R is placed in the x-y plane with centre at the origin. Half of the loop with xgt0 is now bent so that it now lies in the y-z plane.

A current carrying circular loop of radius R is placed in the x-y plane with centre at the origin. Half of the loop with xgt0 is now bent so that it now lies in the y-z plane.

A circular coil, carrying a constant current i s kept in the x - y plane. The magnetic flux through the entire x - y plane exluding the area of the circular coil is given by phi and the magetic flux through the area of the circular coil area is given by phi_(0) , then

A current - carrying circular loop of radius R is placed in the XY- plane with centre at the origin. Half of the loop with xgt0 is now bent so that is now lies in the YZ- plane

A wire loop carrying current I is placed in the x-y plane as shown. Magnetic induction at P is

Consider a circular coil of wire carrying constant current I, forming a magnetic dipole. The magnetic flux through an infinite plane that contains the circular coil and excluding the circular area is given by phi . magnetic flux through the area of the circular area is given by phi . Which of the following option is correct?