Cathode Ray Magnetic Effect Deflection Manufacturer,Supplier and Exporter in India

Product Code : SCL-PLE-11840

The Cathode Ray Magnetic Effect Deflection by Scientifc Equipment is an educational physics laboratory apparatus designed to demonstrate the deflection of cathode rays or electron beams by a magnetic field. It is suitable for school physics laboratories, college science labs, advanced electricity and magnetism lessons, electron beam demonstrations, and supervised teacher-led experiments.

This apparatus helps students observe how moving charged particles are affected by magnetic fields. It supports practical learning of cathode rays, electron beams, magnetic force, beam deflection, charged particle motion, vacuum tube operation, and the basic principles used in cathode ray tube technology.

Product Description

Cathode ray magnetic deflection demonstrates that cathode rays are streams of negatively charged particles. When a magnetic field is brought near the path of the electron beam, the beam bends due to the magnetic force acting on the moving charged particles. The direction of deflection changes depending on the direction of the magnetic field and the direction of electron motion.

The Scientifc Equipment Cathode Ray Magnetic Effect Deflection may include a cathode ray tube, electron gun arrangement, fluorescent screen, tube support, high-voltage terminals, magnetic deflection arrangement, bar magnet or external magnet demonstration accessories, connecting leads, and protective support depending on product configuration. It is designed for supervised educational and laboratory demonstration use only.

Key Features

• Educational apparatus for demonstrating magnetic deflection of cathode rays.
• Shows that moving electron beams are affected by magnetic fields.
• Useful for teaching charged particle motion, magnetic force, and CRT principles.
• Supports lessons on Lorentz force, magnetic field direction, and beam movement.
• Clear visual demonstration when used with compatible high-voltage CRT power supply.
• Helps students compare magnetic deflection with electrostatic deflection concepts.
• Suitable for advanced physics practicals and teacher-led demonstrations.
• Encourages observation, prediction, safe circuit setup, and scientific reasoning.
• Designed for supervised educational laboratory use only.

Product Specifications

How to Use

1. Place the apparatus on a stable, clean, dry, and insulated laboratory bench.
2. Inspect the cathode ray tube, glass body, terminals, leads, support base, and magnetic demonstration accessories before use.
3. Ensure the compatible CRT power supply is switched off before making any connections.
4. Connect the cathode ray tube to the recommended power supply using properly insulated high-voltage leads.
5. Stand behind a suitable safety screen if required by laboratory procedure.
6. Switch on the power supply slowly and observe the electron beam or glowing spot on the fluorescent screen.
7. Bring a suitable magnet or magnetic field source near the beam path as instructed by the teacher.
8. Observe the change in beam position or direction due to magnetic deflection.
9. Reverse the magnetic pole orientation under supervision and observe the change in deflection direction.
10. Record observations such as field direction, beam movement, magnet position, and deflection pattern.
11. Switch off all power supplies after the demonstration and allow the apparatus to discharge safely before touching or disconnecting leads.

Safety and Handling Instructions

• Use only under trained teacher, laboratory instructor, or qualified adult supervision.
• This apparatus may require high voltage; only trained personnel should connect and operate it.
• Do not touch terminals, leads, electrodes, or power supply connections while the apparatus is energized.
• Use only compatible high-voltage power supplies recommended for cathode ray tube demonstrations.
• Do not connect the apparatus directly to mains electricity.
• Switch off and discharge the apparatus safely before changing connections or handling leads.
• Use properly insulated high-voltage leads and keep all connections secure.
• Handle the glass tube carefully; do not use cracked, chipped, scratched, or damaged tubes.
• Use a protective screen or safety shield if required by laboratory safety rules.
• Keep magnets away from pacemakers, watches, magnetic cards, credit cards, and sensitive electronic equipment.
• Keep face, eyes, hands, and loose clothing away from the tube and electrical terminals.
• Keep the apparatus away from water, chemicals, dust, flames, and damp surfaces.
• Store in a clean, dry, and protective place after use.

Educational Applications

• Demonstrating magnetic deflection of cathode rays.
• Showing that moving charged particles are affected by magnetic fields.
• Teaching Lorentz force and charged particle motion.
• Explaining how magnetic field direction affects beam path.
• Introducing cathode ray tube and electron beam display principles.
• Supporting lessons on atomic physics, electronics, magnetism, and electromagnetism.
• Helping students compare electrostatic and magnetic beam deflection.
• Encouraging observation, prediction, recording, and scientific reasoning in advanced physics practicals.

Why Choose Scientifc Equipment Cathode Ray Magnetic Effect Deflection?

The Scientifc Equipment Cathode Ray Magnetic Effect Deflection provides a clear and practical way to demonstrate how magnetic fields influence moving electron beams. It helps students visually understand charged particle motion, magnetic force, field direction, and CRT operation through carefully supervised laboratory demonstration.

FAQ

1. What is Cathode Ray Magnetic Effect Deflection used for?

It is used to demonstrate how cathode rays or electron beams are deflected when exposed to a magnetic field.

2. Is this apparatus suitable for school physics laboratories?

Yes, it is suitable for advanced school physics labs, college science labs, STEM classrooms, and teacher-led demonstrations with proper supervision.

3. What principle does this apparatus demonstrate?

It demonstrates that moving charged particles experience a force in a magnetic field, causing the electron beam to bend.

4. Does the apparatus require high voltage?

Cathode ray tube demonstrations generally require a compatible high-voltage power supply. Exact voltage requirements depend on the product configuration and tube rating.

5. What happens when the magnet polarity is reversed?

Reversing the magnetic pole orientation generally changes the direction of beam deflection, showing the relationship between magnetic field direction and force direction.

6. Can students operate this apparatus independently?

No. Students should only observe or assist under trained teacher or laboratory instructor supervision because the apparatus may involve high voltage, magnets, and glass vacuum tubes.

7. What safety precautions are important?

Important precautions include using insulated high-voltage leads, switching off before adjustments, avoiding contact with terminals, checking the glass tube for damage, keeping magnets away from sensitive devices, and using a safety screen if required.

8. How should the apparatus be stored?

Store the cathode ray tube apparatus in a clean, dry, and protective place away from moisture, impact, dust, chemicals, heat, strong stray magnets, and rough handling. Keep leads and accessories organized.

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SEO Meta Title

Cathode Ray Magnetic Effect Deflection – Scientifc Equipment

SEO Meta Description

Buy Cathode Ray Magnetic Effect Deflection by Scientifc Equipment for advanced school physics labs, electron beam demonstrations, CRT magnetic deflection experiments, magnetism lessons, and supervised STEM learning.

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 cathode ray applications, supervised electron beam demonstrations, safe high-voltage handling, magnetic deflection learning, CRT principle observation, magnet safety, and trustworthy product guidance while clearly stating that the product is for educational and laboratory demonstration use only.