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The image shows an open textbook with text and diagrams related to Lenz's Law and electromagnetic induction. The left page has the heading "48.11 LENZ'S LAW" and explains that Lenz's law states that an induced current flows in a direction that opposes the motion producing it, and this is also called Faraday's second law of electromagnetic induction. Below the text are three diagrams labeled (a), (b), and (c), each showing a coil of wire connected to a galvanometer, with a magnet represented by its poles (N for North, S for South) being moved towards or away from the coil. The right page contains further explanation of the law, discussing the direction of induced electromotive force (e.m.f.) when the current in a primary coil increases, causing the induced current in a secondary coil to be in the opposite direction. It also describes how the direction of induced current opposes the movement of a magnet towards or away from a solenoid. Below this text is a diagram labeled (d) showing two coils. The bottom of the image has text describing factors affecting the magnitude of induced e.m.f., including the strength of the magnet and the surface area and relative speed of the coil.

There is no information in the image that would allow for the identification of a location in Jalingo, Nigeria. The image is solely of a textbook page.
Bigstev

Jun 9, 2026, 5:26 AM

Jalingo, Nigeria

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The image shows an open textbook with text and diagrams related to Lenz's Law and electromagnetic induction. The left page has the heading "48.11 LENZ'S LAW" and explains that Lenz's law states that an induced current flows in a direction that opposes the motion producing it, and this is also called Faraday's second law of electromagnetic induction. Below the text are three diagrams labeled (a), (b), and (c), each showing a coil of wire connected to a galvanometer, with a magnet represented by its poles (N for North, S for South) being moved towards or away from the coil. The right page contains further explanation of the law, discussing the direction of induced electromotive force (e.m.f.) when the current in a primary coil increases, causing the induced current in a secondary coil to be in the opposite direction. It also describes how the direction of induced current opposes the movement of a magnet towards or away from a solenoid. Below this text is a diagram labeled (d) showing two coils. The bottom of the image has text describing factors affecting the magnitude of induced e.m.f., including the strength of the magnet and the surface area and relative speed of the coil. There is no information in the image that would allow for the identification of a location in Jalingo, Nigeria. The image is solely of a textbook page.

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Bigstev

Jun 9, 2026, 5:26 AM

Jalingo, Nigeria

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