Description
Specifications Table
Product Material – High-grade ferromagnetic alloy
Grade – Laboratory/Research
Application – Magnetic field strength detection, calibration, and analysis
Product Overview
The Gauss Probe is engineered for high-precision magnetic field measurements, offering exceptional sensitivity and reliability for laboratory applications. Constructed from a high-grade ferromagnetic alloy, this probe ensures minimal signal interference and maximum accuracy when paired with a digital Gauss meter. Its robust design is optimized for consistent performance across varying magnetic field strengths, making it ideal for research, calibration, and experimental setups. The probe’s compact form factor allows for easy handling and precise positioning, while its durable build guarantees long-term usability in demanding environments. Whether used for routine magnetic field analysis or specialized experiments, this probe delivers dependable results with minimal drift or noise. Compatible with most standard digital Gauss meters, it provides seamless integration into existing lab setups without requiring additional calibration. The probe’s high-resolution output ensures fine-grained measurements, critical for applications where even minor fluctuations in magnetic field strength must be detected. Designed to meet laboratory-grade standards, it undergoes rigorous quality checks to maintain performance consistency across repeated use.
FAQs
1. What materials are used in the construction of this Gauss probe?
A high-grade ferromagnetic alloy is used to ensure accuracy and durability in magnetic field detection.
2. Is this probe compatible with all digital Gauss meters?
It is designed for broad compatibility with standard digital Gauss meters, but verify connector types for seamless integration.
3. How should I store the probe when not in use?
Store in a dry, non-magnetic environment away from strong magnetic fields to prevent calibration drift.
4. Are there alternatives for measuring weaker magnetic fields?
For low-strength fields, consider a high-sensitivity Hall effect probe or a fluxgate magnetometer for better resolution.
5. Does this probe require periodic recalibration?
While built for stability, recalibration is recommended annually or after exposure to extreme magnetic fields for optimal accuracy.
