A metal disc of radius R resistivity `rho` thickness y is subjected into a vertical magnetic field of induction B `=B_(0)` Sin `omegat ` where `omega=2pi f. ` Find the total power loss in the metal disc.

A metallic ring of radius a and resistance R is held fixed with its axis along a spatially uniform magnetic field whose magnitude is B_(0) sin (omega t) . Neglect gravity. Then,

A circular brass loop of radius a and resistance R is placed with it plane perpendicular to a magnetic field, which varies with time as B = B_(0) sin omega t . Obtain the expression for the induced current in the loop.

A metal ring of radius r =0.5m with its plane noraml a unifrom magnetic field B of induction 0.2T carries a current I=100A The tension in newtons develoed in the ring is

A particle excuting SHM has equation y=A sin(omegat+(pi)/(6)) where omega=(2pi)/(T) , then find the possible time t when it is at y=-(A)/(2)

A metal disc of radius R rotates with an angular velcoity omega about an axis perpendicular to its plane passing through its centre in a magnetic field B acting perpendicular to the plane of the disc. Calculate the induced emf between the rim and the axis of the disc.

A circular disc of radius 0.2 m is placed in a uniform magnetic fied of induction (1)/(pi) ((Wb)/(m^(2))) in such a way that its axis makes an angle of 60^(@) with The magnetic flux linked with the disc is

A metallic disc of radius r is made of a material of negligible resistance and can rotate about a conducting horizontal shaft. A smaller non conducting disc of radius a is fixed onto the same shaft and has a massless cord wrapped around it, which is attached to a small object of mass m as shown. Two ends of a resistor of resistance R are connected to the perimeter of the disc and to the shaft by sliding contacts. The system is then placed into a uniform horizontal magnetic field B and the mass m is released. Find the terminal angular velocity with which the disc will rotate finally. (Take r=10 cm , a=2cm , R=(1)/(100)Omega , B=0.2 T , m=50 gm , g=10m//s^(2) )

On a smooth horizontal table a disc is placed with non conducting ring with uniformly distributed charge q fixed on its circumference. Both disc and ring are of mass m and radius r. If a uniform magnetic field of induction B which is symmetric with centre of disc is switched on in vertically downward direction, find the angular speed attained by disc due to this.

A circular disc of radius 20 cm is rotating with a constant angular speed of 2.0 rad//s in a uniform magnetic field of 0.2 T. Find the e.m.f. induced between the centre and rim of the disc. Given magnetic field is along the axis of rotation of disc.

A metal disc of radius 200 cm is rotated at a constant angular speed of rad s^(-1) in a plane at right angles to an external field of magnetic induction 0.05 Wb m^(-2) . Find the e.m.f. induced between the centre and a point on the rim.