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\nUnderstanding the Direction of Induced Potential in Conducting Wires with Magnetic Fields\n

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\nThis video explores how the direction of an induced potential within a conducting wire is affected by the direction in which the magnetic field that produces the potential moves. It covers the concept of electromagnetic induction and how...\nThis video explores how the direction of an induced potential within a conducting wire is affected by the direction in which the magnetic field that produces the potential moves. It covers the concept of electromagnetic induction and how a potential difference and current are induced in a conducting wire when it is moved relative to a magnetic field. The video then examines how the direction of the conductor or the magnetic field affects the current flowing through the conductor and the magnetic field produced by the induced current in the conducting loop. The video provides examples and illustrations to aid understanding and concludes by exploring the concept of conservation of energy.\n
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Resource Details

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Curator Rating
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Educator Rating
Not yet Rated
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Media Length
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7:12
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Grade
9th - Higher Ed
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Subjects
Science
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Media Type
Instructional Videos
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Source:
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\nKnowMo Physics\n\n
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Date
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2018
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Language
English
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Audiences
For Teacher Use
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Usage Permissions
Fine Print: Educational Use
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Additional Materials

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Concepts

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magnetism, electromagnetism, potential difference
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Additional Tags

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gcse, and, igcse, science, physics, aqa, the, direction, of, an, induced, potential, magnetic field, complete circuit, north pole, south pole, hand side, conducting wire, continually accelerate, induced potential, opposite direction, clockwise direction, anticlockwise direction, conducting loop, moved relative, larger current, wire loop, bar magnet, induced current, wire, accelerate, loop, moved, moves, flows, positive, turn, coil, current
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Classroom Considerations

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Best For: Explaining a topic
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Educator Ratings

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\n\" data-title=\"Get Full Access\" data-container=\"body\" rel=\"popover\" tabindex=\"0\" aria-label=\"Play video: Understanding the Direction of Induced Potential in Conducting Wires with Magnetic Fields\" href=\"/subscription/new\">\"Understanding\n\n
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