Study the Faraday Effect and Measure the Verdant Constant of Glass Rod

Study the Faraday Effect and Measure the Verdant Constant of Glass Rod

34500 INR/Piece
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Product Details:

  • Power 230V AC, 50 Hz
  • Voltage 12V DC Supply Module Included
  • Usage To study the Faraday Effect and measure the Verdant Constant of Glass Rod
  • Display Analog Meter Scale
  • Product Type Physics Laboratory Experimental Kit
  • Material High Quality Glass, Bakelite, Metal & Plastic Components
  • Design Tabletop Mount, Modular Set-up
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Study the Faraday Effect and Measure the Verdant Constant of Glass Rod Price And Quantity

  • 34500 INR/Piece
  • 1 Piece
  • Up to 10,000 Gauss
  • Overload Protection Fuse
  • 10-12 mm
  • High Transparency Polarizing Sheet
  • Measures Verdant (Verdet) Constant and Analyzes Faraday Rotation
  • Connecting Wires, Mounting Fixtures, Instruction Manual
  • Typically 150 mm
  • Educational, Research, Scientific Demonstrations
  • Variable Current Regulator
  • Electromagnetic Coil with Soft Iron Core
  • 10°C to 40°C

Study the Faraday Effect and Measure the Verdant Constant of Glass Rod Product Specifications

  • Mains Electricity
  • Photodiode/Photo Sensor
  • Analog Meter Scale
  • Approx. 40 x 20 x 14 cm
  • To study the Faraday Effect and measure the Verdant Constant of Glass Rod
  • High Quality Glass, Bakelite, Metal & Plastic Components
  • Physics Laboratory Experimental Kit
  • 12V DC Supply Module Included
  • 1% of reading
  • Approx. 2.5 kg
  • Tabletop Mount, Modular Set-up
  • LED or Halogen Lamp
  • 230V AC, 50 Hz
  • Not Applicable (Mains Powered)
  • Up to 10,000 Gauss
  • Overload Protection Fuse
  • 10-12 mm
  • High Transparency Polarizing Sheet
  • Measures Verdant (Verdet) Constant and Analyzes Faraday Rotation
  • Connecting Wires, Mounting Fixtures, Instruction Manual
  • Typically 150 mm
  • Educational, Research, Scientific Demonstrations
  • Variable Current Regulator
  • Electromagnetic Coil with Soft Iron Core
  • 10°C to 40°C

Product Description

Study the Faraday Effect and Measure the Verdant Constant of Glass Rod

Setup Contains:-

He-Ne Laser:- A Laser Tube along with Power Supply areHoused in thick powered coated aluminum box , From Hole the laser beam comesout. It has also wavelength 6328 A`, Red Color, Random Polarisation,2mW.

Optical Bench:- With 1.5 Length Long S.S rods, two slowmotion rider, two fixed rider , two stand.

A Solenoid rod with sample glass rod ( For Measure VedentConstant)

Power Supply for Soleniod.

Ammeter for Measure Current.

Analyzer & Polarizer with rod.

Suitable Stand for Coil & Laser.

Photo Cell with multimeter.



Comprehensive Faraday Effect Study

This equipment enables in-depth exploration of the Faraday Effect, allowing users to directly observe and measure magnetic field-induced rotation in a glass rod. With a high transparency polarizer, robust electromagnetic coil, and precise photodetection, users can evaluate how magnetic fields alter light polarization-making it ideal for classroom demonstrations and advanced research.


Accurate Measurement of Verdet Constant

Measure the Verdet Constant of the glass rod with exceptional precision. A variable current regulator and analog meter scale provide control and easy readout, ensuring that results fall within 1% accuracy. This feature supports reliable experimentation and comparative studies across varied conditions and materials.


User-Friendly and Safe Operation

Designed for ease of use in educational and research environments, the setup incorporates safety features like overload protection fuse and modular assembly for quick setup or transport. Mains-powered with a stable supply module, the device guarantees consistent performance and safe extended usage.

FAQ's of Study the Faraday Effect and Measure the Verdant Constant of Glass Rod:


Q: How is this apparatus used to study the Faraday Effect and measure the Verdet Constant?

A: The setup passes polarized light through a glass rod situated in a variable magnetic field created by the electromagnetic coil. The rotation of the light's polarization, as detected by the photodiode sensor, is measured using the analog meter. By controlling the magnetic field using the current regulator, users can calculate the Verdet Constant precisely.

Q: What is the typical process for conducting the Faraday Effect experiment with this setup?

A: To begin, mount the glass rod and polarizers using the provided fixtures. Connect the electromagnetic coil and set up the photodiode detector to record changes in polarization. Gradually vary the current to adjust the magnetic field, and use the analog meter to monitor the rotation angle. Data collected will allow calculation of the Verdet Constant.

Q: When should this equipment be used, and who can benefit from it?

A: This apparatus is best suited for physics classrooms, university labs, and scientific research facilities. It is ideal for experimental educational demonstrations and research projects focused on electromagnetic phenomena, benefitting students, educators, and scientists in understanding magneto-optical effects.

Q: Where can this product be installed and operated?

A: Its compact, tabletop modular design makes it convenient for use in academic laboratories, research institutes, and science demonstration settings. The system operates reliably within standard indoor environments at temperatures from 10C to 40C.

Q: What accessories and features are included to facilitate measurements and ensure safety?

A: The setup comes complete with connecting wires, mounting fixtures, an instruction manual, and a variable current regulator. Safety is reinforced with an overload protection fuse and a stable power supply, ensuring secure and trouble-free operation.

Q: Why is the analog meter scale significant for this experiment?

A: The analog meter scale allows users to directly observe the degree of polarization rotation, aiding in quick, real-time readings. This visual feedback simplifies data collection and enhances experimental efficiency for both demonstrations and research studies.

Q: What is the benefit of the modular and mains-powered design?

A: A modular build streamlines installation and component replacement, while mains-powered operation (230V AC) ensures consistent performance without downtime, making the experiment accessible and reliable for regular use in varied educational and research environments.

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  • Phone :91-171-4002637
  • 09416070580
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