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| S S LA == |mport: X (RS b ) Lab5.p X PHY-2 bd @ PHY-2 PS5.pdf X C @ File /Users/moesaleh/Downloads/Lab5.pdf 1 Gmail YouTube

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| S S LA == |mport: X (RS b ) Lab5.p X PHY-2 bd @ PHY-2 PS5.pdf X C @ File /Users/moesaleh/Downloads/Lab5.pdf 1 Gmail YouTube |l Courses | Content @& Washington, D.C. t... Review Trip Detail... [ All Bookmarks (BTN [l 2 E R 1 R LA PHY 252 General Physics IT Faraday's Law Pre-lab Questions 1. Review section 34.4 of the text (Lenz's Law). State Lenz's Law. 2. Review section 34.5 of the text (Faraday's Law). State Faraday's Law (including the equation). Instructions For this lab, you will be exploring Faraday's Law using the PhET simulation found at https://phet.colorado.edu/en/simulations/faradays-law. When you open the simulation, be sure that \"Voltmeter\" and \"Field Lines\" are selected (see below). Lab . Be sure that the voltmeter and field lines are turned on. Slowly pass the north pole of the magnetic into the large coil. Is the flux through the loop increasing or decreasing? Will the induced magnetic field from the coil point in the same or opposite direction? How do you know? . Now, slowly back the magnet out of the coil. As the north pole exits the coil, is the flux through the loop increasing or decreasing? Will the induced magnetic field point in the same or opposite direction? How do you know? . Next, place the magnetic into the coil such that the north and south poles are sticking out of each end. \"Wiggle\" the magnet back and forth. What do you notice? Why is this the case? . Flip the magnet using the green button. Slowly pass the south pole of the magnetic into the large coil. Is the flux through the loop increasing or decreasing? Will the induced magnetic field from the coil point in the same or opposite direction? How do you know? Content X * Log in | | X o Mail - Mc X Plan & S X Importar X CO PHY-251 X 5 Lab5.pd X CO PHY-25 X CO PHY-25 X PS5.pdf X 5 > Course X G File file:///Users/moesaleh/Downloads/Lab5.pdf M : M Gmail YouTube all Courses Content

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