Electrical Transformer Manufacturer,Supplier and Exporter in India
Product Code : SCL-EAE-11122
The Electrical Transformer provides a practical way to study how an alternating current in a primary coil produces a changing magnetic field that can induce an electromotive force in a secondary coil. The apparatus helps connect theoretical transformer diagrams with observable voltage measurements and laboratory experiments.
This educational apparatus supports lessons on electromagnetic induction, mutual induction, primary and secondary windings, turns ratio and step-up or step-down voltage transformation where the confirmed model configuration permits. It complements the Lab Exports range of electrical and electronics laboratory equipment.
Key Features
Transformer principle demonstration: Helps explain electrical energy transfer between primary and secondary coils through electromagnetic induction.
Primary and secondary coil study: Supports identification and comparison of transformer windings.
AC voltage transformation: Enables study of input and output voltage relationships when used with a suitable alternating-current supply.
Mutual induction learning: Demonstrates how a changing magnetic field in one coil can induce electromotive force in another coil.
Hands-on physics education: Converts abstract electromagnetic concepts into observable laboratory measurements.
Useful for supervised practicals: Suitable for school physics demonstrations, college experiments and STEM activities.
Reusable teaching apparatus: Intended for repeated instructional use when correctly operated, inspected and stored.
Technical Specifications
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Specification |
Detail |
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Product Name |
Electrical Transformer |
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Brand |
Lab Exports |
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Product Category |
Physics Laboratory Equipment > Electrical and Electronics > Transformer Demonstration Apparatus |
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Pack Format |
Single educational demonstration unit |
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Primary Principle |
Electromagnetic induction and mutual induction |
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Learning Concepts |
Primary coil, secondary coil, AC voltage transformation, induced EMF and turns ratio |
Applications / Uses
Demonstrating the operating principle of an electrical transformer.
Studying electromagnetic induction and mutual induction.
Identifying primary and secondary transformer windings.
Investigating AC input and output voltage relationships.
Explaining step-up and step-down transformation where supported by the confirmed configuration.
Supporting school physics practicals, college experiments and STEM demonstrations.
Extending basic circuit learning with the Circuit Board Junior.
How to Use the Electrical Transformer
Place the transformer apparatus on a clean, dry and stable laboratory bench.
Identify the primary and secondary terminals according to the confirmed product instructions.
Keep the electrical supply switched off while making all connections.
Connect the primary winding only to the specified alternating-current supply.
Connect suitable measuring instruments across the required input and output terminals.
Switch on the supply and record the primary and secondary voltage readings.
Compare the readings and relate the voltage ratio to the coil arrangement where the relevant winding information is available.
Switch off and disconnect the supply before changing any connections.
Safety note: Use only under teacher or laboratory supervision. Never exceed the confirmed voltage or current ratings. Do not touch exposed terminals while energized, do not short-circuit the windings, and always switch off the supply before altering connections.
Care & Maintenance
Keep the apparatus dry and free from dust, moisture and conductive debris.
Inspect terminals, leads, insulation and windings for visible damage before each practical session.
Do not exceed the confirmed electrical ratings or allow the apparatus to overheat.
Store the transformer in a dry laboratory cabinet after use.
Why Choose Lab Exports
Lab Exports manufactures and exports scientific laboratory instruments, experiment setups, science kits, mathematics kits, didactic models and STEM equipment. Its physics range includes apparatus for electricity, electronics, magnetism, mechanics, optics, heat and laboratory measurement. Buyers can extend electrical practical work with the Ohms Law Kit with Built-in Power Supply. Exact electrical ratings, coil configuration, core construction and accessories should be confirmed before procurement.
Frequently Asked Questions
What is an Electrical Transformer used for in a physics laboratory?
An Electrical Transformer is used to demonstrate electromagnetic induction and the transfer of electrical energy between primary and secondary coils. It can also support experiments involving AC voltage transformation.
How does an electrical transformer work?
An alternating current in the primary coil produces a changing magnetic field. This changing magnetic flux induces an electromotive force in the secondary coil.
What is the difference between the primary and secondary coils?
The primary coil receives the AC input, while the secondary coil provides the induced output. Their exact turns and voltage relationship depend on the transformer configuration.
Can this apparatus demonstrate step-up and step-down transformation?
It can demonstrate step-up or step-down voltage transformation when its confirmed coil configuration provides the required turns ratio and accessible terminals.
Is the Electrical Transformer suitable for school laboratories?
Yes. It is relevant to supervised school physics lessons, college practicals and STEM activities involving electromagnetic induction and transformer principles.
What should buyers confirm before ordering?
Buyers should confirm input voltage, output voltage, current rating, coil turns, turns ratio, core material, terminal arrangement, dimensions, supplied accessories and tender-specific compliance requirements.
Request verified specifications for the Electrical Transformer or explore the complete Lab Exports physics laboratory equipment range for institutional science teaching and practical experiments.
Recommended Product Image ALT Text: Electrical Transformer for demonstrating electromagnetic induction and primary-secondary coil voltage transformation in a physics laboratory.
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