Abstract

GUACHUN, Freddy P.  and  RAPOSO, Víctor J.. DESIGN AND CALIBRATION OF A VIBRANT SAMPLE MAGNETOMETER: CHARACTERIZATION OF MAGNETIC MATERIALS. Momento [online]. 2018, n.56, pp.45-62. ISSN 0121-4470.  https://doi.org/10.15446/mo.n56.69825.

This paper presents the process followed in the implementation of a vibrating sample magnetometer (VSM), constructed with materials commonly found in an electromagnetism laboratory. It describes the design, construction, calibration and use in the characterization of some magnetic materials. A VSM measures the magnetic moment of a sample when it is vibrated perpendicular to a uniform magnetic field; Magnetization and magnetic susceptibility can be determined from these readings. This instrument stands out for its simplicity, versatility and low cost, but it is very sensitive and capable of eliminating or minimizing many sources of error that are found in other methods of measurement, allowing to obtain very accurate and reliable results. Its operation is based on the law of magnetic induction of Lenz-Faraday that consists in measuring the induced voltage in coils of detection produced by the variation of the magnetic flux that crosses them. The calibration of the VSM was performed by means of a standard sample (Magnetite) and verified by means of a test sample (Nickel).

Keywords : Vibrating simple magnetometer; Magnetic characterization; VSM; Lenz-Faradays law; Laboratory equipment.

        · abstract in Spanish     · text in Spanish     · Spanish ( pdf )