shows a conducting disc rotating about its axis in a perpendicular magnetic field B. A resistor of resistance R is connected between the centre and the rim. Calculate the current in the resistor. Does it enter the disc or leave it at the centre? The radius of hte disc is 5.0 cm , angular speed `omega = 10 rad/s, B = 0.40 T` and `R = 10 Omega`.

A thin horizontal disc of radius R=10cm is located with in a cylindrical cavity filled with oil whose viscosity eta=0.08 P (figure) The distance between the disc and the horizontal planes of the cavity is equal to h=1.0 mm find the power developed by the viscous forces acting ont he disc when it rotates with the angular velocity omega=60rad//s . The end effect are to be neglected.

A wheel of radius r having conducting rim and n no. of conducting spokes, rotates in a plane perpendicular to uniform magnetic field B with constant angular speed omega . Prove that emf induced between centre and rim of a wheel is 1/2BomegaR^2

A wheel having n conducting concentric spokes is rotating about it geometrical axis with an angular velocity omega , in a uniform magnetic field B perpendicular to its plane prove that the induced emf generated between the rim of the wheel and the center is (omegaBR^2)/2 , where R is the radius of the wheel. It is given that the rim of the wheel is conducting.

A wheel of radius 2m having 8 conducting concentric spokes is rotating about its geometrical axis with an angular velocity of 10 rad/s in a uniform magnetic field of 0.2T perpendicular to its plane. The value of induced emf between the rim of the wheel and centre is ......... V

A circular disc of radius r and mass m rotates about the axis passing through the centre and perpendicular to its plane. What will if rotational kinetic energy?

One metallic ring of radius 1 m has a conducting rod connected between centre and rim of wheel. It rotates in a plane perpendicular to uniform magnetic field 2 T with frequency 100"rev"/s . Find emf induced across the rod.

One metallic ring of radius 2 m has a conducting rod connected between centre and rim of wheel. It rotates in a plane perpendicular to uniform magnetic field 1 T with frequency 25"rev"/s . Find emf induced across the rod.

One U shaped conducting frame is placed in a plane perpendicular to uniform magnetic field B. One conducting rod of mass m and length l is kept perpendicular to parallel sides of this frame. At time t = 0, this rod is pushed perpendicular to its length with initial velocity v_g . Prove that its velocity at the end of time t is v_t=v_0 "exp" ((-B^2l^2)/(mR)t) where R=resistance of external circuit and l=perpendicular distance between two parallel slides .