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Question 3: Faradays Law Part (a) rad A circular loop of wire of diameter 15 cm is mounted on a vertical shaft and rotated at an increasing speed described by the angular acceleration of a(t) = 50- in a region of uniform magnetic field of B = 350mT perpendicular to the axis of rotation. Determine the time-dependent current, I(t), through the ring if it has a resistance of 10 0.

Question 3: Faradays Law Part (a) rad A circular loop of wire of diameter 15 cm is mounted on a vertical shaft and rotated at an increasing speed described by the angular acceleration of a(t) = 50- in a region of uniform magnetic field of B = 350mT perpendicular to the axis of rotation. Determine the time-dependent current, I(t), through the ring if it has a resistance of 10 0.

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Question 3: Faradays Law Part (a) A circular loop of wire of diameter 15 cm is mounted on a vertical shaft and rotated at an increasing speed described by the angular acceleration of a (t) = 50 rad in a region of uniform magnetic field of B = 350mT perpendicular to the axis of rotation. Determine the time-dependent current, I(t), through the ring if it has a resistance of 10 0. $2 Part (b) The rod shown below moves to the right on essentially zero-resistance rails at speed of v(t) = 4.00 If B = 0.75T everywhere in the region, what is the current through the 5.0.2 resistor? Answers: Part (a) Part (b) B ● 5.0 2. ● E V ● 4.0 cm HE
Transcribed Image Text:Question 3: Faradays Law Part (a) A circular loop of wire of diameter 15 cm is mounted on a vertical shaft and rotated at an increasing speed described by the angular acceleration of a (t) = 50 rad in a region of uniform magnetic field of B = 350mT perpendicular to the axis of rotation. Determine the time-dependent current, I(t), through the ring if it has a resistance of 10 0. $2 Part (b) The rod shown below moves to the right on essentially zero-resistance rails at speed of v(t) = 4.00 If B = 0.75T everywhere in the region, what is the current through the 5.0.2 resistor? Answers: Part (a) Part (b) B ● 5.0 2. ● E V ● 4.0 cm HE
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I need part B also

Question 3: Faradays Law Part (a) A circular loop of wire of diameter 15 cm is mounted on a vertical shaft and rotated at an increasing speed described by the angular acceleration of a(t) = 50 rad in a region of uniform magnetic field of B = 350mT perpendicular to the axis of rotation. Determine the time-dependent current, I(t), through thes ring if it has a resistance of 10 0. Part (b) The rod shown below moves to the right on essentially zero-resistance rails at speed of v(t) = 4.00. If B = 0.75T everywhere in the region, S what is the current through the 5.0.2 resistor? Answers: Part (a) Part (b) B 5.0 2 4.0 cm ) { S
Transcribed Image Text:Question 3: Faradays Law Part (a) A circular loop of wire of diameter 15 cm is mounted on a vertical shaft and rotated at an increasing speed described by the angular acceleration of a(t) = 50 rad in a region of uniform magnetic field of B = 350mT perpendicular to the axis of rotation. Determine the time-dependent current, I(t), through thes ring if it has a resistance of 10 0. Part (b) The rod shown below moves to the right on essentially zero-resistance rails at speed of v(t) = 4.00. If B = 0.75T everywhere in the region, S what is the current through the 5.0.2 resistor? Answers: Part (a) Part (b) B 5.0 2 4.0 cm ) { S
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