Magnetostriction with Michelson Interferometer

Magnetostriction with Michelson Interferometer

70000 INR/Piece
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Product Details:

  • Voltage 220V AC, 50Hz
  • Power Operates on AC mains supply
  • Display Analog/Scale Reading
  • Usage Measurement of magnetostriction using Michelson interferometer
  • Product Type Physics Laboratory Equipment
  • Material Optical glass, aluminum base and frame
  • Design Standard laboratory rugged design with vibration damping
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Magnetostriction with Michelson Interferometer Price And Quantity

  • 1 Piece
  • 70000 INR/Piece
  • 35W sodium lamp
  • Suitable for nickel and iron rods
  • Insulated wiring, overload-protected power supply
  • Nickel rod, iron rod, pair of interferometer mirrors, power cables, instruction manual
  • CE certified electrical components
  • Interference fringe shift measurable to sub-micron level
  • Ideal for university physics lab experiments and research demonstrations
  • High-precision micrometers and adjustment screws
  • Michelson interferometer for measuring tiny dimensional changes in ferromagnetic rods due to magnetostriction
  • Heavy, anti-vibration platform for accurate measurement
  • Front surface, high reflectivity
  • Operate in vibration-free and dust-free environment

Magnetostriction with Michelson Interferometer Product Specifications

  • Sodium lamp (included)
  • Operates on AC mains supply
  • Approx 8 kg
  • Optical glass, aluminum base and frame
  • Electric (AC mains)
  • Up to 0.01 micron
  • Approximately 50 cm x 30 cm x 22 cm
  • Analog/Scale Reading
  • Measurement of magnetostriction using Michelson interferometer
  • Physics Laboratory Equipment
  • Photoelectric sensor with precision scale
  • 220V AC, 50Hz
  • Standard laboratory rugged design with vibration damping
  • 35W sodium lamp
  • Suitable for nickel and iron rods
  • Insulated wiring, overload-protected power supply
  • Nickel rod, iron rod, pair of interferometer mirrors, power cables, instruction manual
  • CE certified electrical components
  • Interference fringe shift measurable to sub-micron level
  • Ideal for university physics lab experiments and research demonstrations
  • High-precision micrometers and adjustment screws
  • Michelson interferometer for measuring tiny dimensional changes in ferromagnetic rods due to magnetostriction
  • Heavy, anti-vibration platform for accurate measurement
  • Front surface, high reflectivity
  • Operate in vibration-free and dust-free environment

Magnetostriction with Michelson Interferometer Trade Information

  • 1 Week
  • Asia, Eastern Europe, Western Europe, Middle East, Africa
  • All India

Product Description

Objective :- To Determine the Magnetostriction in Metallic Soft Iron Rod using Michelson Interferometer.

Setup Contains:-Michelson Interferometer Assembly with Mirror, Beam Splitter, Special Mirror with Solenoid & Soft iron rod

Diode laser with Stand and Power Supply

Objective 10X with mount

Stand for Solenoid

Screen with stand

Power Supply for Solenoid.



Superior Measurement of Magnetostriction

Experience unmatched precision in observing magnetostriction effects with the Michelson Interferometer. Engineered with a heavy anti-vibration base, high-reflectivity mirrors, and a stable 35W sodium lamp, the system reliably captures the tiniest dimensional changes in nickel and iron rods. Its CE certified electrical components and safeguarded power supply ensure safety during lengthy academic or research applications.


Precision Engineering for Advanced Experiments

The instrument incorporates high-precision adjustment screws and micrometers, ensuring accurate alignment and measurements. With front surface mirrors and a durable aluminum frame, researchers can trust consistent, repeatable results. Analog/scale reading, complemented by a photoelectric detector, enables real-time tracking of fringe shifts down to fractions of a micron within controlled, vibration-free settings.

FAQ's of Magnetostriction with Michelson Interferometer:


Q: How does the Michelson Interferometer measure magnetostriction in ferromagnetic rods?

A: The device uses interference patterns formed by light beams reflected from surfaces attached to the sample rod. When the rod changes length due to magnetostriction, the path difference alters the interference fringe pattern, which can be measured to sub-micron accuracy using the interferometer.

Q: What types of samples can be measured with this setup?

A: This system is compatible with ferromagnetic rods, specifically nickel and iron, as included in the accessory kit. It is designed to securely hold these rods for accurate measurement during experiments.

Q: When is it necessary to use an anti-vibration base for measurements?

A: Precise interference measurements require a stable, vibration-free environment. The anti-vibration base ensures external disturbances do not affect the delicate fringe shift readings, making it essential during all measurement operations.

Q: Where should this system be installed for optimal results?

A: To achieve the best measurement accuracy, the instrument should be set up in a laboratory space that is free from dust and vibrations. Environments with controlled temperature and minimal external interference will yield the most reliable results.

Q: What is the working process for measuring magnetostriction using this system?

A: First, place the ferromagnetic rod in the holder and align the interferometer using the micrometers and adjustment screws. Illuminate the setup with the included sodium lamp, and observe the interference pattern. Apply a magnetic field and record the shift in fringe pattern with the analog or photoelectric scale to determine the rod's dimensional change.

Q: What benefits does this system offer to university labs and research projects?

A: This interferometer provides exceptional accuracy, safety compliance, and repeatability, making it ideal for precise educational demonstrations and advanced research. The comprehensive accessory kit streamlines setup, while CE certification and safety features ensure secure operation.

Q: How do you ensure safe and correct operation of the instrument?

A: Follow the detailed instruction manual provided. Inspect the insulated wiring and overload-protected power supply before use, and operate only under specified voltage (220V AC, 50Hz) and clean laboratory conditions to maintain both safety and measurement fidelity.

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  • Phone :91-171-4002637
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