An equilateral triangle of conducting wire of side 'a' is kept in a time (t) varying magnetic field `B=B_0t`, where `B_0` is constant in such a way that the centre of field coincides with the centroid of the triangle. Now, choose the correct statement.

An equilateral triangular conducting frame is rotated with angular velocity omega in a uniform magnetic field B as shown. Side of triangle is l . choose the correct options

A triangular wire frame (each side =2m) is placed in a region of time variant magnetic field dB//dt = (sqrt3) T//s . The magnetic field is perpendicular to the plane of the triangle and its centre coincides with the centre of triangle. The base of the triangle AB has a resistance 1(Omega) while the other two sides have resistance 2(Omega) each. The magnitude of potential difference between the points A and B will be

A current of 2A is flowing in the sides of an equilateral triangle of side 9 cm. The magnetic field at the centroid of the triangle is

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 :

A conducting ring of radius ris placed perpendicularly inside a time varying magnetic field given by B=B_(0) + alphal . B_(0) and a are positive constants. E.m.f. induced in the ring is

A circular loop of radius r , having N turns of a wire, is placed in a uniform and constant magnetic field B . The normal of the loop makes an angle theta with the magnetic that the angle theta is constant. Choose the correct statement from the following.

A loop shown in the figure is immersed in the varying magnetic field B=B_0t , directed into the page. If the total resistance of the loop is R , then the direction and magnitude of induced current in the inner circle is

A conducting circular loop of radius a and resistance R is kept on a horizontal plane. A vertical time varying magnetic field B=2t is switched on at time t=0. Then

A loop in the shape of an equilateral triangle triangle of side a carries a current I as shown in the figure.Find out the magnetic field at the centre C of the triangle.

Figure shows a conducting rod of negligible resistance that can slide on smooth U-shaped rail made of wire of resistance 1Omega//m . Position of the conducting rod at t=0 is shown. A time dependent magnetic field B=2t tesla is switched on at t=0 At t=0 , when the magnetic field is switched on, the conducting rod is moved to the left at constant speed 5cm//s by some external means. At t=2s , net induced emf has magnitude