Figure shows a conducting circular loop of radius a placed in a uniform, perpendicular magnetic field B. A thick metal rod OA is pivoted at the centre O. The other end of the rod touches the loop at A. Tec entre O and a fixed point C on the loop are connected by a wire OC of resistance R. A force is applied at the middle point of the rod OA perpendicularly, so that the rod rotates clockwise at a uniform angular velocity ω. Find the force.
Given:
Radius = a
Magnetic field = B
Resistance = R
Angular velocity = w
Formula used:
Let us consider an element of length dr at a distance r from the centre.
Hence, induced emf on this portion 
… (i), where B = magnetic field, dr = length of element, w = angular velocity, r = distance from centre (since v = ωr)
Hence, integrating on both sides with suitable limits, we get
⇒ 
Now, current 
, where E = emf, resistance = R
=> 
Hence, force on the rod 
(where I = current, a = length of rod, B = magnetic field) ⇒ 
(Ans)