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A 2.60 N metal bar, (8.75×10^−1)m long and having a resistance of 6.00 Ω, rests horizontally on conducting wires connecting it to the circuit shown in the figure below. The bar is in a uniform, horizontal, 1.60 T magnetic field and is not attached to the wires in the circuit. What is the acceleration of the bar just after the switch S is closed? Express your answer with the appropriate units. Note: Your answer is assumed to be reduced to the highest power possible. Your Answer: x10 Answer units

A 2.60 N metal bar, (8.75×10^−1)m long and having a resistance of 6.00 Ω, rests horizontally on conducting wires connecting it to the circuit shown in the figure below. The bar is in a uniform, horizontal, 1.60 T magnetic field and is not attached to the wires in the circuit. What is the acceleration of the bar just after the switch S is closed? Express your answer with the appropriate units. Note: Your answer is assumed to be reduced to the highest power possible. Your Answer: x10 Answer units

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A 2.60 N metal bar, ( 8.75 × 10 1 ) m long and having a resistance of 6.00 Ω , rests horizontally on conducting wires connecting it to the circuit shown in the figure below. The bar is in a uniform, horizontal, 1.60 T magnetic field and is not attached to the wires in the circuit.
What is the acceleration of the bar just after the switch S is closed? Express your answer with the appropriate units. Note: Your answer is assumed to be reduced to the highest power possible. Your Answer: x 10 Answer units

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