SEG Electrical Energy Sources Manufacturer,Supplier and Exporter in India
Product Code : SCL-EI-10571
The Electrical Energy Sources Kit is a school physics apparatus used for comparing radiant, chemical and mechanical sources of electrical energy. It helps students observe how a solar cell, galvanic cell and induction generator produce measurable voltage for simple classroom circuits and one-lesson practical experiments.
Product Description
SEG Electrical Energy Sources is a practical student kit for introducing the different ways electrical energy can be generated. The kit shows that a solar cell converts light energy, a galvanic element converts chemical energy, and an induction setup converts mechanical movement into electrical energy.
The kit is designed for simple handling by school students under teacher supervision. A voltage indicator helps learners detect generated electrical voltage and compare the output from each source. For related teaching apparatus, explore our Physics Lab Equipment and Electronic Instruments categories.
Key Features
- Demonstrates three electrical energy sources: solar, galvanic and induction.
- Suitable for school physics experiments that can be completed within one lesson.
- Includes a voltage indicator for observing generated electrical voltage.
- Supports comparison of energy conversion from light, chemical reaction and motion.
- Solar cell activity shows that a solar cell converts energy but does not store it.
- Galvanic cell activity introduces battery-like chemical generation of electricity.
- Induction activity demonstrates generator action using motion and magnetic effects.
- No product-specific certification is confirmed; verify tender requirements before procurement.
Technical Specifications
|
Specification |
Detail |
|
Product Name |
SEG Electrical Energy Sources |
|
Brand |
Lab Glassware Manufacturer |
|
Product Category |
Physics Lab Equipment / Electrical Energy Experiment Kit |
|
Primary Keyword |
Electrical Energy Sources Kit |
|
Intended Users |
School physics students, teachers, STEM labs and electricity practical groups |
|
Experiment Coverage |
Solar cell, galvanic element and generator / induction experiments |
|
Energy Sources Demonstrated |
Radiant energy, chemical energy and mechanical energy |
|
Voltage Indicator |
0 to 500 µA voltage indicator as listed in reference supply details |
|
Storage Format |
R3 plastic case, 260 x 197 x 55 mm, as listed in reference supply details |
|
Recommended Level |
Secondary school physics; final curriculum mapping |
What's Included in the Kit
- Solar cell
- Voltage indicator, 0 to 500 µA
- Plastic tube with 2 rings
- Glass / cover glass with citric acid
- Felt board strips, set of 10 pieces
- Copper enamelled wire, 0.25 mm diameter
- Red experiment cable, 25 cm
- Rod magnet, 75 x 10 mm
- R3 plastic case, 260 x 197 x 55 mm
- Lid foam and foam insert for storage
- Instruction sheet or experiment guide
- Remaining individual accessories
Applications / Uses
- Comparing different sources of electrical energy in one classroom lesson.
- Demonstrating photovoltaic conversion with a solar cell.
- Building a simple galvanic cell from chemical materials.
- Showing generator action using induction and mechanical movement.
- Explaining the difference between energy conversion and energy storage.
- Teaching voltage generation, circuit connection and measurement observation.
- Supporting renewable energy, battery and generator lessons in school physics.
How to Use the SEG Electrical Energy Sources
- Select the experiment: solar cell, galvanic element or generator induction.
- Place the required components on a clean, dry laboratory bench.
- Connect the voltage indicator using the supplied experiment cable.
- For the solar-cell activity, illuminate the solar cell and observe the indicator response.
- For the galvanic-cell activity, assemble the chemical cell as directed in the experiment guide.
- For the induction activity, move the magnet or coil arrangement as directed to generate voltage.
- Compare the observations and discuss which form of energy was converted into electrical energy.
Safety note: Use the kit under teacher supervision. Handle citric acid, wires, magnets and electrical connections carefully, and disconnect all circuits before rearranging components.
Care & Maintenance
- Clean and dry chemical-cell components after the galvanic-cell experiment.
- Store the solar cell and voltage indicator in the foam insert after use.
- Keep magnets away from electronic storage media and sensitive instruments.
- Check wires, contacts and indicator movement before each practical session.
Why Choose Lab Glassware Manufacturer
Lab Glassware Manufacturer supplies laboratory glassware, physics apparatus, electronic instruments and science experiment kits for institutional procurement. The brand supports schools, colleges, laboratories and export buyers with category-based sourcing for practical science teaching. Buyers can combine this kit with General Lab Equipment and Safety Protective Wears for complete laboratory supply planning.
Frequently Asked Questions
What is an Electrical Energy Sources Kit used for?
An Electrical Energy Sources Kit is used to compare how radiant energy, chemical energy and mechanical energy can be converted into electrical energy in school physics experiments.
Which energy sources are demonstrated in this kit?
The kit demonstrates a solar cell, a galvanic element and a generator or induction setup. These represent light, chemical and mechanical sources of electrical energy.
Can the experiments be completed in one lesson?
Yes. The reference product is designed for school experiments that can be carried out within the time frame of a single lesson.
Does the kit include a voltage indicator?
Yes. The verified supply details list a voltage indicator rated 0 to 500 µA for observing generated electrical voltage.
Is this kit suitable for secondary school physics?
Yes. The kit is suitable for secondary school electricity and energy-conversion lessons under teacher supervision.
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 school electricity practicals, renewable-energy lessons and institutional procurement, request a quotation through the Physics Lab Equipment category.
