In the figure, a conducting rectangular body of dimensions dy = 9.22 m, dy = 4.91 m, and d̟ = 1.65 m moves at constant velocity v = (12.7 m/s)î through a uniform magnetic field B = (47.2 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? d, (a) Number ( i i+ i ĵ+ i k) Units (b) Number i Units

In the figure, a conducting rectangular body of dimensions dy = 9.22 m, dy = 4.91 m, and d̟ = 1.65 m moves at constant velocity v = (12.7 m/s)î through a uniform magnetic field B = (47.2 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? d, (a) Number ( i i+ i ĵ+ i k) Units (b) Number i Units

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Question

In the figure, a conducting rectangular body of dimensions dx = 9.22 m, dy = 4.91 m, and dz = 1.65 m moves at constant velocity v =
(12.7 m/s)i through a uniform magnetic field B = (47.2 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?
(a) Number (
i
i
k) Units
(b) Number
i
Units

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