ON 11 (Start on å m circular coil is placed in a magnetic field such that the field is perpendicular rface of each loop of the coil at all times. As the coil rotates, the magnetic field at a constant rate from 0,22 T to 0,42 T in 3,2 x 10 s. The emf induced in the g this time is -15,2 V. ng State Faraday's law of electromagnetic induction in words. Calculate the: 11.2.1 Change in magnetic flux through the circular loop 11.2.2 Radius of the coil The coil now rotates in the opposite direction and the magnetic field changes from 0,42 T to 0,22 T in the same time interval, Write down the induced emf.

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15 cm 5 uC Calculate the magnitude of the electric field at point P due to both charges. ION 11 (Start on a new page.) um circular coil is placed in a magnetic field such that the field is perpendicular surface of each loop of the coil at all times. As the coil rotates, the magnetic field es at a constant rate from 0,22 T to 0,42 T in 3,2 x 10 s. The emf induced in the ring this time is -15,2 V. State Faraday's law of electromagnetic induction in words. Calculate the: 11.2.1 Change in magnetic flux through the circular loop 11.2.2 Radius of the coil The coil now rotates in the opposite direction and the magnetic field changes from 0,42 T to 0,22 T in the same time interval. Write down the induced emf. yright reserved Please tun C