Technical Newsletter

Cost Effective Modular
Magnetism Experimental Setups

A comprehensive collection of 18 professional magnetism experiments designed for education, research, and advanced laboratory applications.

EXP 01
Permanent Magnet Magnetic Field Generation Setup

Permanent Magnet Magnetic Field Generation Setup

Generate stable magnetic fields using permanent magnets with fixed air gap for accurate laboratory measurements

EXP 02
Air Cooled Electromagnet Setup with Gaussmeter Feedback Control

Air Cooled Electromagnet Setup with Gaussmeter Feedback Control

Generate stable DC magnetic fields using electromagnets with automated feedback control system

EXP 03
Linearity and Calibration of Electromagnet Field Output

Linearity and Calibration of Electromagnet Field Output

Verify electromagnet linearity and perform multi-point calibration with less than 0.5% error

EXP 04
Analyzing Magnetic Field Generated by a Solenoid

Analyzing Magnetic Field Generated by a Solenoid

Visualize solenoid magnetic fields using Hall probe and understand Biot–Savart Law in practice

EXP 05
Measurement of Gradient Magnetic Field Using Helmholtz Coil

Measurement of Gradient Magnetic Field Using Helmholtz Coil

Study uniform magnetic fields and gradient mapping with Helmholtz coil setup

EXP 06
Measuring Low Earth Magnetic Field using Fluxgate Magnetometer

Measuring Low Earth Magnetic Field using Fluxgate Magnetometer

Detect and analyze Earth's geomagnetic field with 3-axis vector measurement capability

EXP 07
Demonstrating Faraday's Law and Lenz's Law using Flux Measurement System

Demonstrating Faraday's Law and Lenz's Law using Flux Measurement System

Demonstrate fundamental induction principles with real-time flux and EMF measurement

EXP 08
Demonstration of Gauss's Law for Magnetism

Demonstration of Gauss's Law for Magnetism

Confirm that total magnetic flux through closed surfaces equals zero

EXP 09
Demonstrating Magnetic Interference using Magnetic Shielding Materials

Demonstrating Magnetic Interference using Magnetic Shielding Materials

Analyze EMI reduction and shielding effectiveness in AC and DC magnetic fields

EXP 10
Demonstrating Hall Effect in Semiconductors

Demonstrating Hall Effect in Semiconductors

Characterize semiconductors using Hall Effect with up to 0.5 Tesla magnetic field

EXP 11
Measuring Magnetic Force Caused by Magnetic Field

Measuring Magnetic Force Caused by Magnetic Field

Analyze magnetic force relationships and electromagnetic interaction principles

EXP 12
Analyzing Behavior of Ferromagnetic Materials using 3D Magnetic Field Mapping

Analyzing Behavior of Ferromagnetic Materials using 3D Magnetic Field Mapping

Characterize ferromagnetic materials with advanced 3D mapping and harmonic waveform analysis

EXP 13
Different Types of Magnetic Field Generators and their Measurements

Different Types of Magnetic Field Generators and their Measurements

Verify fundamental EM laws through comparative field measurement of different generators

EXP 14
Demonstrating Soft Magnetic Material Behavior

Demonstrating Soft Magnetic Material Behavior

Study low-coercivity materials with rapid magnetization-demagnetization characteristics

EXP 15
Observing Superconductivity & Meissner Effect

Observing Superconductivity & Meissner Effect

Visualize magnetic levitation and Meissner Effect in action with superconducting materials

EXP 16
Demonstration of Pulsed Magnetic Field using DX-160 Gaussmeter

Demonstration of Pulsed Magnetic Field using DX-160 Gaussmeter

Study AC magnetic fields and frequency-dependent behavior with real-time waveform analysis

EXP 17
Demonstration of Magnet Analyzer (UHS-1DS / UHS-3DS)

Demonstration of Magnet Analyzer (UHS-1DS / UHS-3DS)

Analyze magnetic properties with automatic BH curve generation and material grading

EXP 18
Using Magnetic Yoke for Non-Destructive Testing (MT-180 Magnetic Yoke)

Using Magnetic Yoke for Non-Destructive Testing (MT-180 Magnetic Yoke)

Perform NDT with portable rechargeable magnetic yoke in AC and DC modes