R1 * xR3 x x x x x ww L R x d. R2 A bar of length d = 1 mis free to slide without fri ction on horizontal rails as shown in Figure. A uniform magneti c field B = the figure. Left ends of the rails are connected to a circuit composed ofresistances, R1 = 400, R2 = 10 N, and R3 = battery with enf ɛ = resistance R =50. Ignore all other resistance in the circuit due to connecting wires and the rails. Just after the switch is closed, what is the accelerati on of the bar? 1.4 T is directed into the plane of 10 0, and R3 180 V, and a switch S. The bar has mass m = 15N, a solenoid with inductance L 0.5 H , a 150 g and %3D %3D A) 38.4 m/s? B) 17.14 m/s? C) 8.4 m/s? D) 264 m/s2 E) 28 m/s?

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16) R1 R3 x * ww L Rx d R2 A bar of length d = shown in Figure. A uniform magneti c field B = 1.4 T is directed into the plane of the figure. Left ends of the rails are connected to a circuit composed ofresistances, R1 = 400, R2 = 10 N, and R3 = 150, a solenoid with inductance L = 0.5 H, a battery with emf ɛ = 180V, and a switch S. The bar has mass m = resistance R =50. Ignore all other resistance in the circuit due to connecting wires and the rails. Just after the switch is closed, what is the accelerati on of the bar? 1 mis free to slide without fri ction on horizontal rails as |3D %3D 150 g and A) 38.4 m/s2 B) 17.14 m/s2 C) 8.4 m/s D) 264 m/s? E) 28 m/s2