Faraday’s Law Apparatus
Product Code : SCL-TMFEEL-12186
Engineered for the empirical verification of electromagnetic induction principles in secondary and university-level physics curricula. This apparatus facilitates the quantification of induced electromotive force (EMF) relative to magnetic flux changes. Designed to meet international laboratory safety standards, it provides a ruggedized platform for demonstrating Faraday’s and Lenz’s laws in technical vocational environments.
Technical Specifications
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Tender Specification |
OEM Technical Detail |
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Coil Construction |
High-conductivity copper windings on impact-resistant polymer bobbins |
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Terminal Interface |
4mm shrouded safety sockets for high-fidelity signal transmission |
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Mounting Platform |
Reinforced, chemically-resistant insulated base with anti-slip footings |
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Magnetic Component |
High-remanence permanent magnet with polarity indicators |
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Dimensions |
Standard laboratory benchtop footprint |
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ISO Compliance Code |
ISO 9001:2015 (Quality Management Systems) |
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HS Code |
9023.00 (Instruments, apparatus and models, designed for demonstrational purposes) |
Key Pedagogical Outcomes (Bloom’s Taxonomy)
Feature: Multi-tap Solenoid Configuration. Outcome: Allows students to analyze the direct proportionality between the number of turns and the magnitude of induced EMF.
Feature: Integrated Galvanometer/Meter Interface. Outcome: Facilitates the real-time observation and quantification of current directionality, supporting the validation of Lenz’s Law.
Feature: Variable Insertion Velocity Manual Guide. Outcome: Enables students to evaluate the rate of change of magnetic flux , satisfying Higher Secondary Physics "Evaluate" level criteria.
Feature: Open-Frame Architectural Design. Outcome: Provides clear visibility of winding orientation and magnetic field interaction, aiding conceptual comprehension of electromagnetic theory.
International Logistics & Compliance
All consignments are secured in export-grade seaworthy crating (ISPM-15 compliant) to maintain the precision alignment of the solenoid and magnetic components during transit. Documentation provided includes the Manufacturer’s Authorization Form (MAF), IQ/OQ/PQ Certification protocols, and comprehensive technical user manuals in English. The apparatus features a tropicalized design, validated for material stability and dielectric performance in operating environments reaching up to 45°C and 90% non-condensing humidity.
Why Source from the OEM
Direct procurement from the OEM ensures vertical integration and adherence to strict engineering tolerances required for repeatable experimental data. Unlike third-party distributors, our facility utilizes in-house precision coil winding and automated batch-testing for impedance uniformity. This direct factory link guarantees the immediate availability of spares and technical calibration data, ensuring long-term institutional ROI and mitigating the risks associated with non-standardized educational equipment.
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