Motor Electric Demonstration Type Manufacturer,Supplier and Exporter in India

Product Code : SCL-PLE-11961

The Motor Electric Demonstration Type by Scientifc Equipment is an educational physics laboratory apparatus designed to demonstrate the basic working principle of an electric motor. It helps students understand electromagnetism, electric current, magnetic field interaction, force on a current-carrying conductor, torque, rotation, commutator action, and conversion of electrical energy into mechanical energy.

This demonstration-type motor is suitable for school physics laboratories, college science labs, electronics classrooms, STEM labs, teacher-led demonstrations, science clubs, and supervised student practical activities. Its open and visible construction helps learners observe the main working parts of an electric motor and understand how each component contributes to rotation.

Product Description

Motor Electric Demonstration Type is a classroom-friendly apparatus used to explain how an electric motor works. When electric current passes through a coil placed in a magnetic field, the coil experiences a turning force and begins to rotate. Depending on the product configuration, the apparatus may include a visible armature, permanent magnet, commutator, brush contacts, terminals, base board, and connecting leads.

The Scientifc Equipment Motor Electric Demonstration Type may include a motor assembly, coil or armature, magnets, commutator, brush contacts, axle, support frame, base, terminals, connecting leads, switch, activity sheet, and instruction guide depending on product configuration. It is designed for supervised educational and laboratory demonstration use only.

Key Features

• Educational electric motor demonstration apparatus for physics and STEM learning.
• Helps demonstrate the conversion of electrical energy into mechanical rotation.
• Useful for teaching electromagnetism, current, magnetic fields, torque, and motor action.
• Open demonstration design may allow students to observe coil, magnet, commutator, and brush action.
• Suitable for school physics labs, electronics classrooms, and teacher-led demonstrations.
• Supports polarity, direction of rotation, speed, and magnetic field comparison activities.
• May include terminals, connecting leads, switch, base, and activity accessories depending on configuration.
• Encourages observation, prediction, troubleshooting, circuit understanding, and scientific reasoning.
• Designed for low-voltage educational laboratory use only.

Product Specifications

How to Use

1. Place the Motor Electric Demonstration Type apparatus on a clean, dry, stable, and level laboratory bench.
2. Inspect the coil, armature, magnets, commutator, brush contacts, terminals, base, leads, and switch before use.
3. Make sure the rotating armature or coil can turn freely without obstruction.
4. Place or check the magnet position according to the supplied instruction guide.
5. Connect the apparatus to the approved battery or low-voltage DC power source.
6. Check that all terminals and connecting leads are secure.
7. Switch on or complete the circuit as instructed by the teacher.
8. Observe the rotation of the coil or armature and identify the working parts.
9. Reverse the battery polarity or change the magnet orientation if the activity requires comparison of rotation direction.
10. Record observations such as starting response, speed, direction of rotation, and circuit behaviour.
11. Discuss how electric current and magnetic field interaction produce torque.
12. Switch off and disconnect the power source after the demonstration.
13. Allow any warm parts to cool, organize the leads, and store the apparatus safely.

Safety and Handling Instructions

• Use only under teacher, laboratory instructor, or trained adult supervision.
• Use only batteries or approved low-voltage educational DC power supplies.
• Do not connect the apparatus directly to mains electricity.
• Switch off or disconnect the power source before changing wiring, magnet position, coil position, or brush contacts.
• Do not short-circuit battery terminals, connecting leads, coil wires, or motor contacts.
• Keep fingers, hair, loose clothing, and small objects away from rotating parts.
• Do not force the armature, axle, coil, or commutator if parts are not aligned properly.
• Keep magnets away from pacemakers, medical implants, watches, mobile phones, magnetic cards, computers, and sensitive electronics.
• Do not use damaged wires, exposed conductors, cracked magnets, loose terminals, broken supports, or faulty battery holders.
• Keep the apparatus away from water, chemicals, wet benches, heat sources, and rough handling.
• Remove batteries after use if required to prevent leakage or accidental operation.
• Store the apparatus in a clean, dry, and protective place after use.

Educational Applications

• Demonstrating the basic working principle of an electric motor.
• Teaching interaction between electric current and magnetic field.
• Explaining force on a current-carrying conductor and torque generation.
• Showing the function of commutator and brush contacts.
• Studying direction of rotation and polarity effects.
• Demonstrating conversion of electrical energy into mechanical energy.
• Supporting physics practicals, electronics lessons, STEM projects, and science exhibitions.
• Encouraging observation, prediction, circuit testing, troubleshooting, and scientific reasoning.

Why Choose Scientifc Equipment Motor Electric Demonstration Type?

The Scientifc Equipment Motor Electric Demonstration Type provides a clear and practical way to teach electric motor principles. Its demonstration-style construction helps students visually understand coil rotation, magnetic field interaction, commutator action, and electrical-to-mechanical energy conversion through supervised classroom learning.

FAQ

1. What is Motor Electric Demonstration Type used for?

It is used to demonstrate the working principle of an electric motor, including current, magnetic field, force, torque, commutator action, rotation, and energy conversion.

2. Is this apparatus suitable for school physics laboratories?

Yes, it is suitable for school physics labs, college science labs, electronics classrooms, STEM labs, and supervised student practical activities.

3. How does Motor Electric Demonstration Type work?

It works by passing electric current through a coil or conductor placed in a magnetic field. The interaction creates force and torque, causing rotation.

4. Does the apparatus require electricity?

Yes, it usually requires a battery or low-voltage educational DC power source depending on product configuration.

5. Can the direction of rotation be changed?

In many configurations, rotation direction may be changed by reversing battery polarity or changing magnet orientation, depending on the model design.

6. What parts of an electric motor can students observe?

Students may observe the coil, armature, magnet, axle, commutator, brush contacts, terminals, and rotating action depending on product configuration.

7. Can students use Motor Electric Demonstration Type independently?

Students should use it under teacher or laboratory instructor supervision because it involves electrical connections, magnets, batteries, and rotating parts.

8. How should Motor Electric Demonstration Type be stored?

Disconnect the power source, remove batteries if required, check that the rotating parts and leads are secure, and store the apparatus in a clean, dry, protective place away from moisture, dust, heat, chemicals, impact, and sensitive electronics.

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Motor Electric Demonstration Type – Scientifc Equipment

SEO Meta Description

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Google E-E-A-T Focused Content

This product content is prepared to support teachers, school buyers, laboratory suppliers, physics educators, electronics instructors, STEM coordinators, lab technicians, students, and educational institutions with clear product information, practical specifications, usage guidance, safety instructions, and helpful FAQs. The content focuses on accurate educational electric motor applications, supervised Motor Electric Demonstration Type use, safe handling of batteries, low-voltage circuits, magnets, coils, commutator parts, brush contacts, and rotating components, electromagnetism learning, circuit observation, energy conversion discussion, and trustworthy product guidance while clearly stating that the product is for educational and supervised demonstration use only.