In the figure, a conducting rectangular body of dimensions d, = 6.28 m, d, = 3.98 m, and d, = 1.37 m moves at constant velocity v (23.5 m/s)i through a uniform magnetic field B = (45.2 mT)j. (a) What is the resulting electric field within the body, in unit-vector notation? (b) What is the resulting potential difference across the body?
In the figure, a conducting rectangular body of dimensions d, = 6.28 m, d, = 3.98 m, and d, = 1.37 m moves at constant velocity v (23.5 m/s)i through a uniform magnetic field B = (45.2 mT)j. (a) What is the resulting electric field within the body, in unit-vector notation? (b) What is the resulting potential difference across the body?
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Transcribed Image Text:In the figure, a conducting rectangular body of dimensions d, = 6.28 m., d, = 3.98 m. and d, = 1.37 m moves at constant velocity V
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(23.5 m/s)i through a uniform magnetic fieldB =(45.2 mT)j. (a) What is the resulting electric field within the body, in unit-vector
notation? (b) What is the resulting potential difference across the body?
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