A time varying magnetic field is present in a cyclindrical region `R` as shown in the figure. A positive charge `q` is taken slowly from `P` to `Q` through `POQ`, the magnetic field varies with time as `B = B_(0) t` (where `B_(0)` is a constant) are directed into the plane of the paper. If `W` is the workdone then `W =`

A uniform but time varying magnetic field exists in cylindrical region and directed into the paper. If field decreases with time and a positive charge is placed at any point inside the region, then it moves :-

A massless non conducting rod AB of length 2l is placed in uniform time varying magnetic field confined in a cylindrical region of radius (R gt l) as shown in the figure. The center of the rod coincides with the centre of the cylin- drical region. The rod can freely rotate in the plane of the Figure about an axis coinciding with the axis of the cylinder. Two particles, each of mass m and charge q are attached to the ends A and B of the rod. The time varying magnetic field in this cylindrical region is given by B = B_(0) [1-(t)/(2)] where B_(0) is a constant. The field is switched on at time t = 0 . Consider B_(0) = 100T, l = 4 cm(q)/(m) = (4pi)/(100) C//kg . Calculate the time in which the rod will reach position CD shown in the figure for th first time. Will end A be at C or D at this instant ?

A time varying magnetic field is present in a cylindrical region of radius R as shown in figure ( cross - sectional view ). B is increasing with time, mark out the correct statement (s) for the given situation, r being the distance from centre of cylindrical region.

A uniform but time-varying magnetic field exists in the cylindrical region and directed into the paper. If field decrease with time and a positive charge placed at any point inside the region, then it moves

A uniform but time varying magnetic field B=(2t^3+24t)T is present in a cylindrical region of radius R =2.5 cm as shown in figure. The variation of electric field at any instant as a function of distance measured from the centre of cylinder in first problem is

A positive charge q is projected in magnetic field of width (mv)/(sqrt(2)qB) with velocity v as shown in figure. Then time taken by charged particle to emerge from the magnetic field is

A uniform but time varying magnetic field exists in a cylindrical region as shown in the figure. The direction of magnetic field is into the plane of the paper and its magnitude is decreasing at a constant rate of 2xx10^-3T//s . A particle of charge 1muC is moved slowly along circle of radius 1m by an external force as shown in figure. The plane of the circle of radius 1m by an external force as shown in figure. The plane of he circle lies in the plane of the paper and it is concentric with the cylindrical region. The work done by the external force in moving this charge along the circle will be