Explain how the device in the diagram below works. Choose three out of the vocabulary words listed to explain: electromagnet, magnet, magnetic field, magnetic poles, solenoid, Faraday's L
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Explain how the device in the diagram below works. Choose three out of the vocabulary words listed to explain:
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- This picture describes an experiment that demonstrates induction. Select the three correctconclusions from these experiments below a) A current appears only if there is relative motion between the loop and the magnet (one must have moved relative to the other); the current disappears when the relative motion is stopped.b) Faster motion produces a smaller current.c) If moving the magnets north pole toward the loop causes a clockwise current, then moving the north pole away causes counterclockwise current; the results reverse when moving the south pole.d) Faster motion produces a larger currentPlease draw the diagram for this problem to explain the answer clearly. Please give a detailed explanation of each of the steps in the answer.Please answer the question in the image
- Q7. If you were to move the north pole of a bar magnet into the front of your coil, what is the direction of the induced current when viewed from the front? To reach your conclusion, answer each of the following (see next page): Motion of the magnet as viewed from above. The arrows by the magnet indicate the direction in which the magnet moves, not necessarily the direction of B. a) Is the flux within the coil increasing, decreasing, or remaining constant? Explain in the space below. b) Viewing the coil “from the front", what is the direction of Bo within the coil? Done as an example to clarify perspective. "From the front" means looking into the coil. (X) (since B lines point away from "N") c) Viewing the coil “from the front", what is the direction Bind within the coil? d) What is the direction of Iind in the coil, when viewed from the front? e) Which way will the needle deflect?A single turn coil of radius 4.50 cm is held in a vertical plane and a magnet is rapidly moved relative to the coil as shown in the diagram below. coil The field inside the coil changes from 0.240 T to 0.580 T in 0.120 s. If the resistance of the coil is 4.30 N, what is the magnitude and direction of the induced current in the coil as viewed from the side of the magnet? magnitude direction ---Select---Please write the solution on paper.