Answer Happy

rotated from CA-1 A rectangular conducting loop consists of two parallel frictionless rails, a resistance R-2.500 that connects the rails on the left, and a bar that connects the rails on the right. The loop lies on a horizontal tabletop. The figure to the right shows the view from above. There is a constant uniform magnetic field B-3.60T that points straight down in the region of the loop. Reuben is applying a constant force F-0.400N to the bar. Under these conditions the bar will reach a constant final velocity V₁. X F-0.400N R-2.500 X X 3.00m k a) Draw the free body diagram for the bar using the view shown. Note that in this view from above the weight points straight down (into the paper). b) Apply Fema to the bar when it is moving with V₁, the final constant speed. Solve your equation to find the numerical value of the current in the loop. do dt to find V₁, the final constant speed of the bar. Onnly Faraday's law: E- B X 0.750m X X B-3.60T X X X