Electromagnetic Theory Question - Question in image, part a and b. In Figurerails on both sides and slides along the x-direction with u = 6a, m/s.Given B = 2a, Wb/m², and R = 300,the conductive rod with length l = 10 cm is in contact with conductiveFind the emf induced in the loop byusing the general form of Faraday's Lawwhere o = S B. dSa'.афVemfFigure.Expanding loopdtb. Calculate the current through the resistorand explain how you determine itsdirection.

The emf induced in the loop is Vemf=-dϕdt....1where ϕ=∫B.dSB-magnetic filed dS-surface area covered…

In Figure the conductive rod with length l = 10 cm is in contact with conductive rails on both sides and slides along the x-direction with u = ба, т/s. Given B = 2a, Wb/m², and R = 300, a. Find the emf induced in the loop by using the general form of Faraday's Law •where o = S B. ds dø Vemf Figure. Expanding lo dt b. Calculate the current through the resistor and explain how you determine its direction. R n.

In Figure the conductive rod with length l = 10 cm is in contact with conductive rails on both sides and slides along the x-direction with u = ба, т/s. Given B = 2a, Wb/m², and R = 300, a. Find the emf induced in the loop by using the general form of Faraday's Law •where o = S B. ds dø Vemf Figure. Expanding lo dt b. Calculate the current through the resistor and explain how you determine its direction. R n.