A uniform magnetic field `B=B_(0)t` (where `B_(0)` is a positive constant) fills a cylindrical volume of radius `R` then the potential difference in the conducting rod `PQ` due to electrostatic field is :

The potential difference points a and B in the given uniform electric field is :

a uniform magnetic field of induction B fills a cylindrical volume of radius R . A rod AB of length 2l is placed as shown in . If B changing at the rate dB//dt , the emf that is produced by the changing magnetic field and that acts between the ends of the rod is

A charge q is accelerated through a potential difference V . It is then passed normally through a uniform magnetic field , where it moves in a circle of radius r . The potential difference required to move it in a circle of radius 2 r is

A conducting rod AB of lemgth 2 l moves through a uniform magnetic field B. The rod makes an angle theta with the vertical while it falls with a uniform linear velocity v. The potential difference between the two ends of the rod is Bv^(2)l .

A uniform magneitc field B fills a cylindrical volume of radius R, A metal rod of length l is placed as shown. If B is changing at the rate of dB/dt, the emf that is produced by the changing magnetic field is xi here p = sqrt(R^(2) - ((l)/(2))^(2)) . then

In a region at a distance r from z-axis, magnetic field vec(B) = B_(0)rt hat(k) is present where B_(0) is constant and t is time. Then the magnetic of induced electric field at a distance r from z-axis is given by

A time varying magnetic field B = Kr^(3)t is existing in a cylindrical region of radius 'R' as shown (where k is a constant). The induced electric field 'E' at r (R )/(2) is

A conducting rod is moved with a constant velocity v in a magnetic field. A potential difference appears across the two ends

A non uniform magnetic field B=B_(0)that"i" in a region exists. A circular conducting loop of radius r and resistance R is placed with its plane in yz-plane. Determine the current through the loop and sense of the current.

There exists a uniform magnetic field bar B = B_(0)t bar k in a region. A circular conducting loop of radius r and resistance R is placed with its plane in x-y plane. Determine the current through the loop and sense of the current.