Electromobility Experiment Kit - Extended Set Manufacturer,Supplier and Exporter in India
Product Code : SCL-EI-10577
The Electromobility Experiment Kit is a school science apparatus used for comparing electric vehicle drive technologies, including hydrogen fuel cells, salt-water fuel cells, solar drive, battery drive, supercapacitor drive and hand-generator drive. It is designed for physics, chemistry, STEM and renewable-energy lessons where students evaluate practical electric mobility systems.
Product Description
The Electromobility Experiment Kit - Extended Set helps students build and compare six vehicle models from one classroom kit. It connects renewable energy, electrochemistry, electric circuits, energy storage and vehicle propulsion in a practical format suitable for guided laboratory work.
The kit allows learners to investigate how different energy sources affect vehicle operation, reliability, charging method and performance. It is especially useful for lessons on sustainable transport, fuel cells, solar energy and energy conversion. For related products, explore our Physics Lab Equipment and Electronic Instruments categories.
Key Features
- Extended electromobility kit for building 6 different vehicle models.
- Demonstrates hydrogen fuel-cell, salt-water fuel-cell, solar, battery and capacitor-based drive systems.
- Includes hand crank generator for mechanical-to-electrical energy conversion activities.
- HYDROSTIK PRO metal-hydride storage and pressure regulator support hydrogen drive demonstrations.
- Vehicle chassis allows repeated comparison of drive technologies on the same platform.
- Useful for discussing advantages and limitations of each electric mobility solution.
- Storage box and manual support organized classroom handling.
- No product-specific certification is confirmed; verify tender compliance before procurement.
Technical Specifications
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Specification |
Detail |
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Product Name |
Electromobility Experiment Kit - Extended Set |
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Brand |
Lab Glassware Manufacturer |
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Product Category |
Physics Lab Equipment / Renewable Energy and Electromobility Kit |
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Primary Keyword |
Electromobility Experiment Kit |
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Secondary Keywords |
electric mobility kit, fuel cell vehicle kit, hydrogen car experiment, solar vehicle kit, supercapacitor experiment, salt-water fuel cell kit, STEM vehicle kit |
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Intended Users |
School physics students, chemistry students, STEM learners, teachers and renewable-energy demonstration groups |
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Model Capacity |
6 different vehicle models |
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Dimensions |
430 x 335 x 235 mm |
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Weight |
2050 g |
What's Included in the Kit
- 1 hand crank generator
- 1 reversible fuel cell
- 1 salt-water fuel cell
- 1 mini fuel cell
- 1 vehicle chassis
- 1 solar cell
- 1 capacitor
- 1 HYDROSTIK PRO hydrogen metal-hydride storage unit
- 1 pressure regulator
- All necessary cables
- 1 storage box
- Operating manual
Applications / Uses
- Comparing hydrogen, salt-water, solar, battery and capacitor vehicle drives.
- Teaching fuel-cell operation and hydrogen as an energy carrier.
- Demonstrating renewable energy conversion using a solar cell.
- Explaining supercapacitor charging and discharge behaviour.
- Studying mechanical energy conversion with a hand crank generator.
- Discussing strengths and limitations of electric mobility technologies.
- Supporting STEM projects on sustainable transportation and clean energy.
How to Use the Electromobility Experiment Kit - Extended Set
- Select the drive model to test, such as hydrogen fuel cell, solar, battery, capacitor or hand generator.
- Place the vehicle chassis and required drive components on a stable laboratory bench.
- Connect the fuel cell, solar cell, capacitor, battery or hand generator as shown in the manual.
- Check all cables, tubes and pressure connections before operating the model.
- Run the vehicle and observe motion, starting behaviour and operating time.
- Repeat the test with another energy source using the same chassis.
- Compare each technology for ease of use, energy storage, speed, reliability and classroom safety.
Safety note: Use the kit only under teacher supervision. Keep hydrogen components away from flames, sparks and hot surfaces. Disconnect electrical parts before changing circuits or drive systems.
Care & Maintenance
- Store fuel cells, tubes and pressure components dry and protected after use.
- Keep the solar cell surface clean and free from scratches.
- Do not bend cables sharply or pull them from the connector ends.
- Return all components to the storage box after every practical session.
Why Choose Lab Glassware Manufacturer
Lab Glassware Manufacturer supplies laboratory glassware, physics apparatus, electronic instruments, STEM kits and educational science models for institutional procurement. The brand supports schools, colleges, laboratories and export buyers with practical equipment sourcing for classroom science teaching. Buyers can combine this electromobility kit with General Lab Equipment, Safety Protective Wears and Lab Tender supply support for complete laboratory planning.
Frequently Asked Questions
What is the Electromobility Experiment Kit used for?
The Electromobility Experiment Kit is used to compare electric vehicle drive technologies such as hydrogen fuel cells, salt-water fuel cells, solar power, batteries, supercapacitors and hand generators.
How many vehicle models can students build?
The extended set allows students to build 6 different vehicle models using one chassis and different energy or drive systems.
Does the kit include hydrogen storage?
Yes. The verified supply scope includes a HYDROSTIK PRO hydrogen metal-hydride storage unit and a pressure regulator.
Can the kit demonstrate solar-powered mobility?
Yes. The kit includes a solar cell for building and testing a solar-powered vehicle model.
Is this kit suitable for school STEM labs?
Yes. It is suitable for teacher-supervised STEM, physics, chemistry and renewable-energy lessons on electric mobility.
Are certifications confirmed for this product?
No product-specific certification is confirmed in the verified source data. Tender compliance, safety declarations and certification requirements should be checked before order placement.
For electric mobility demonstrations, renewable-energy projects and institutional procurement, request a quotation through the Physics Lab Equipment category.
