Electromagnet Physics Project
- Availibility: In Stock
Components Required:
- Primary Coil
- Magnetic Field Lines
- Coil of Wire (to create a rotating magnetic field)
- LEDs (Load)
- AC Voltage
- Connecting Wires
- Baseboard (to mount components)
Qty
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Description
The image illustrates the working of an Electromagnet in the context of Electromagnetic Induction and Transformer Physics:
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Primary Coil: When an AC voltage is applied to the primary coil, an alternating current flows through it, generating an alternating magnetic field around the coil.
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Magnetic Field Lines: These field lines are shown looping between the primary and secondary coils. The alternating magnetic field induces a changing magnetic flux through both the primary and secondary coils.
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Secondary Coil: The alternating magnetic flux from the primary coil induces an electromotive force (EMF) in the secondary coil through the principle of electromagnetic induction (Faraday's Law). This EMF drives a current through the secondary circuit, which can power devices, such as the connected LEDs in the diagram.
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LEDs (Load): The induced current from the secondary coil powers the LEDs, causing them to light up. The alternating current in the primary coil is transferred to the secondary coil through magnetic coupling, demonstrating how energy can be transferred wirelessly between two circuits.
This image shows the basic functioning of an electromagnet, where an alternating magnetic field is used to induce current in a secondary coil, illustrating the principle of transformers and wireless power transfer.
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