Current Balance Manufacturer,Supplier and Exporter in India

Product Code : SCL-PLE-11520

Scientifc Equipment Current Balance is an educational physics laboratory apparatus designed to demonstrate the force acting on a current-carrying conductor placed in a magnetic field. It is suitable for school science laboratories, college physics labs, STEM classrooms, electricity and magnetism practicals, and teacher-led demonstrations.

This apparatus helps students understand the relationship between electric current, magnetic field strength, conductor length, and magnetic force. It is useful for explaining the motor effect, electromagnetic force, Fleming’s left-hand rule, and the principle behind electric motors and measuring instruments.

Product Description

The Current Balance by Scientifc Equipment is a practical electromagnetism teaching apparatus used to measure or demonstrate the force produced when current flows through a conductor in a magnetic field. The apparatus generally consists of a balance arm or conductor loop, magnetic field arrangement, support frame, terminals, connecting leads, scale or balancing system, and accessories as per supplied model configuration.

During the experiment, current is passed through a conductor placed between magnetic poles. The conductor experiences a force due to the interaction between the magnetic field and the current. By changing the current, conductor length, or magnetic field, students can observe changes in force and verify the relationship between current and magnetic force.

Scientifc Equipment Current Balance is useful for teaching magnetic force, current-carrying conductor behaviour, force measurement, motor effect, magnetic field interaction, and STEM-based practical physics learning.

Key Features

• Brand: Scientifc Equipment
• Educational Electromagnetism Apparatus: Designed for demonstrating force on a current-carrying conductor.
• Current and Force Study: Helps students observe how magnetic force changes with current.
• Motor Effect Demonstration: Useful for explaining the working principle of electric motors.
• Measurement-Based Learning: Supports practical observation, readings, calculation, and graph plotting.
• Physics Lab Suitable: Ideal for electricity and magnetism experiments.
• STEM Classroom Tool: Connects electromagnetism theory with hands-on demonstration.
• Reusable Laboratory Apparatus: Suitable for repeated supervised school and college practical use.

Product Specifications

How to Use Current Balance

1. Place the Current Balance on a clean, dry, stable, and level laboratory table.
2. Check the balance arm, conductor, terminals, magnets, support frame, and connecting leads before use.
3. Position the conductor or current loop within the magnetic field as per the supplied apparatus design.
4. Connect the circuit using a suitable low-voltage DC power supply, switch, ammeter, and rheostat if required.
5. Set the balance to its initial zero or reference position before passing current.
6. Switch on the current briefly and observe the deflection or force effect on the conductor.
7. Adjust the current and observe how the force or balance reading changes.
8. Reverse the current direction and observe the change in direction of force.
9. Change the magnetic field arrangement or conductor length if the apparatus supports this experiment.
10. Record current, force, balance position, field direction, and observations in the practical notebook.
11. Plot a graph of force against current if required by the experiment.
12. Switch off the power supply after the experiment and disconnect all leads safely.
13. Store the apparatus and accessories in a dry laboratory cabinet after use.

Educational Applications

• Demonstrating force on a current-carrying conductor
• Studying the motor effect in electromagnetism
• Understanding Fleming’s left-hand rule
• Verifying the relationship between current and magnetic force
• Studying the effect of magnetic field strength on force
• Explaining the working principle of electric motors
• Supporting force-current graph plotting activities
• Teaching electromagnetic interaction through practical observation
• Helping students connect theory with measurable laboratory results

Why Choose Scientifc Equipment Current Balance?

Scientifc Equipment provides practical educational science apparatus for schools, colleges, laboratories, and STEM learning environments. The Current Balance helps students understand magnetic force and electromagnetism through direct observation, controlled experimentation, and measurement-based learning.

• Suitable for school and college physics laboratories
• Useful for electricity, magnetism, motor effect, and electromagnetic force experiments
• Supports practical verification of force-current relationship
• Compatible with common lab power supplies, meters, rheostats, and magnets
• Encourages data recording, graphing, calculation, and scientific analysis
• Reusable apparatus suitable for repeated supervised practical work
• Suitable for institutional procurement and science lab setup

E-E-A-T Product Trust Notes

• Educational Experience: Designed for repeated classroom and laboratory use in electromagnetism and magnetic force demonstrations.
• Practical Expertise: Supports standard physics concepts such as current-carrying conductor force, motor effect, magnetic field interaction, and Fleming’s left-hand rule.
• Authoritative Lab Use: Suitable for schools, colleges, STEM labs, physics labs, electronics labs, and electrical science laboratories.
• Trustworthy Learning: Encourages supervised, low-voltage, measurement-based experiments with clear observation and calculation outcomes.

Care and Safety Instructions

• Use the Current Balance only under teacher or laboratory instructor supervision.
• Use only the recommended low-voltage DC power supply or battery arrangement.
• Do not connect the apparatus directly to mains electricity.
• Switch off power before changing connections, adjusting the conductor, or moving magnets.
• Do not exceed the rated current of the conductor or balance assembly.
• Avoid short circuits and loose wiring during the experiment.
• Do not allow the conductor to overheat due to excessive current.
• Keep magnets away from electronic devices, magnetic cards, and sensitive instruments.
• Handle the balance arm and conductor carefully to avoid bending or misalignment.
• Keep the apparatus clean, dry, and protected from moisture, dust, corrosive chemicals, and rough handling.

SEO Title

Current Balance for School and College Physics Lab – Scientifc Equipment

Meta Description

Buy Scientifc Equipment Current Balance for school physics labs, college electromagnetism practicals, force on current-carrying conductor experiments, motor effect demonstrations, Fleming’s left-hand rule study, and STEM laboratory learning.

SEO Keywords

Current Balance, Scientifc Equipment Current Balance, School Lab Current Balance, Physics Lab Current Balance, Electromagnetic Force Apparatus, Force on Current Carrying Conductor, Motor Effect Demonstrator, Fleming Left Hand Rule Apparatus, Magnetic Force Experiment, STEM Physics Equipment.

FAQ – Current Balance

1. What is a Current Balance used for?

A Current Balance is used to demonstrate and study the force acting on a current-carrying conductor placed in a magnetic field.

2. Is this apparatus suitable for school and college laboratories?

Yes, Scientifc Equipment Current Balance is suitable for school science labs, college physics labs, STEM classrooms, electromagnetism practicals, and supervised demonstrations.

3. Which physics principle does Current Balance demonstrate?

It demonstrates electromagnetic force, where a current-carrying conductor experiences force when placed in a magnetic field.

4. Can it be used to demonstrate the motor effect?

Yes, the apparatus clearly demonstrates the motor effect, which is the force or motion produced when current flows through a conductor in a magnetic field.

5. What happens when the current is increased?

Increasing the current generally increases the magnetic force on the conductor, provided the magnetic field and conductor length remain constant.

6. What happens when current direction is reversed?

Reversing the current direction reverses the direction of the force acting on the conductor.

7. Does the Current Balance require electricity?

Yes, it requires a suitable low-voltage DC power supply or battery arrangement to pass current through the conductor.

8. Can it be connected directly to mains electricity?

No, the Current Balance should never be connected directly to mains electricity. It must be used only with a recommended low-voltage source.

9. What accessories are useful with this apparatus?

Useful accessories include a DC power supply, ammeter, rheostat, switch, connecting wires, magnets, slotted weights, graph paper, and laboratory worksheet.

10. Can students use the Current Balance directly?

Students can use the apparatus under teacher or laboratory instructor supervision after learning correct wiring, balancing, current control, and safety precautions.

11. What safety precautions should be followed?

Use only low voltage, avoid short circuits, switch off power before adjustments, do not exceed rated current, and stop the experiment if the conductor becomes hot.

12. How should Current Balance be maintained?

Keep it clean and dry, check terminals and wires regularly, protect the balance arm from bending, avoid excessive current, and store the apparatus safely after use.

13. Is this product useful for STEM education?

Yes, it supports STEM education by helping students observe, measure, compare, graph, and understand electromagnetic force, current, magnetic field, and motor effect through hands-on experiments.

Conclusion

Scientifc Equipment Current Balance is a valuable educational physics apparatus for teaching force on a current-carrying conductor, magnetic field interaction, motor effect, Fleming’s left-hand rule, and electromagnetic force measurement. Its practical demonstration value, measurement-based learning support, and compatibility with common electrical lab accessories make it suitable for school laboratories, college physics labs, STEM classrooms, electromagnetism practicals, science projects, and institutional science lab setups.