For an L shaped conducting rod placed in an uniform magnetic field `vecB` rotating with constant angular velocity `omega` about an axis passing through one of its ends A and normal to the plane of the conductor induced emf

For the L shaped conductor in a uniform magnetic field B shown in figure the emf across its ends when it rotates with angular velocity omega about an axis through one its ends O and normal to its plane will be

A rod is rotating with angular velocity omega about axis AB. Find costheta .

A rod of length l is perpendicular to the lines of induction of a uniform magnetic field of induction B. The rod revolves at an angular speed omega about an axis passing through the rod's end parallel to the lines of induction. Find the voltage across the rod's ends.

When a 'j' shaped conducting rod is rotating in its own plane with constant angular velocity omega about one of its ends P in a uniform magnetic field rarr B ( directed normally into the plane of paper ) the magnitude of emf induced across it will be

The radius of gyration of an uniform rod of length l about an axis passing through one of its ends and perpendicular to its length is.

a semicircle wire of radius R is rotated with constant angular velocity about an axis passing through one end and perpendicular to the plane of wire. There is a uniform magnetic field of strength B . The induced emf between the ends is

a semicircle wire of radius R is rotated with constant angular velocity about an axis passing through one end and perpendicular to the plane of wire. There is a uniform magnetic field of strength B . The induced emf between the ends is

In figure, there is conducting ring having resistance R placed in the plane of paper in a uniform magnetic field B_(0) . If the rings is rotating in the plane of paper about an axis passing through point O and perpendicular to the plane of paper with constant angular speed omega in clockwise direction, then

In the above question if the coil rotates with a constant angular velocity omega , the EMF induced in it

Assertion A conducting loop is rotated in a uniform magnetic field with constant angular velocity omega as shown in figure. At time t = 0, plane of the loop is perpendicular to the magnetic field. Induced emf produced in the loop is maximum when plane of loop is parallel to magnetic field. Reason When plane of loop is parallel to magnetic field, then magnetic flux passing through the loop is zero.