25.00 cm by 30.00 cm measurement of a rectangular shape coil made up by 50 turns. A 1.200 T magnetic field is applied on the coil. The coil is placed in this uniform magnetic field in such a way that the plane of the coil and magnetic field is parallel to each other. After 0.222 sec, coil rotates so that the field and plane of coil is perpendicular to each other. Compute the variation in the magnetic flux by this rotation. During this rotation, calculate the value of average emf produce in the coil.
25.00 cm by 30.00 cm measurement of a rectangular shape coil made up by 50 turns. A 1.200 T magnetic field is applied on the coil. The coil is placed in this uniform magnetic field in such a way that the plane of the coil and magnetic field is parallel to each other. After 0.222 sec, coil rotates so that the field and plane of coil is perpendicular to each other. Compute the variation in the magnetic flux by this rotation. During this rotation, calculate the value of average emf produce in the coil.
Chapter13: Electromagnetic Induction
Section: Chapter Questions
Problem 47P: Calculate the induced electric field in a 50-tuni coil with a diameter of 15 cm that is placed in a...
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25.00 cm by 30.00 cm measurement of a rectangular shape coil made up by 50 turns. A 1.200 T magnetic field is applied on the coil. The coil is placed in this uniform magnetic field in such a way that the plane of the coil and magnetic field is parallel to each other. After 0.222 sec, coil rotates so that the field and plane of coil is perpendicular to each other. Compute the variation in the magnetic flux by this rotation. During this rotation, calculate the value of average emf produce in the coil.
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