Submit Answer Tries 0/6 (b) What is the rate of energy dissipation in the resistor? Submit Answer Tries 0/6 (c) What is the mechanical power delivered by the constant force? Submit Answer Tries 0/6 www Post Discussion R Figure P20.18 (c20p57) A conducting rod of length L moves on two horizontal frictionless rails, as in Figure P20.18. A constant force of magnitude 1.30 N moves the bar at a uniform speed of 2.30 m/s through a magnetic field B that is into the page. (a) What is the current in an 6.00 2 resistor R? © 2003 Thomson Brooks Cale e Fapp Send Feedback in 3 Figure P20.18 Fapp

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Submit Answer Tries 0/6 (b) What is the rate of energy dissipation in the resistor? Submit Answer Tries 0/6 (c) What is the mechanical power delivered by the constant force? Submit Answer Tries 0/6 www Post Discussion R Figure P20.18 (c20p57) A conducting rod of length L moves on two horizontal frictionless rails, as in Figure P20.18. A constant force of magnitude 1.30 N moves the bar at a uniform speed of 2.30 m/s through a magnetic field B that is into the page. (a) What is the current in an 6.00 2 resistor R? © 2003 Thomson Brooks Cale e Fapp Send Feedback A Tries 0/5 (b) What is the rate of energy dissipation in the resistor? Figure P20.18 (2057) A conducting rod of length L moves on two horizontal frictionless rails, as in Figure P20.18. A constant force of magnitude 1.30 N moves the bar at a uniform speed of 2.30 m/s through a magnetic field B (a) What is the current in an 6.000 resistor R Sub Tries 0/6 (c) What is the mechanical power delivered by the constant force? SA Tries 0/6 Ć Post Discussion app Send Feedback