Gaussimeter with automatic movement for the evaluation of the density of the magnetic flow in permanent magnets
Descripción del Articulo
The 2022 quarantine period exposed the need to design laboratory instruments that were accessible to students, allowing them to conduct experiments from home. Although many magnetism studies have developed manually displaced gaussmeters, only a few of them have been automated. Therefore, this study...
| Autores: | , , |
|---|---|
| Formato: | artículo |
| Fecha de Publicación: | 2024 |
| Institución: | Universidad Peruana de Ciencias Aplicadas |
| Repositorio: | UPC-Institucional |
| Lenguaje: | inglés |
| OAI Identifier: | oai:repositorioacademico.upc.edu.pe:10757/676055 |
| Enlace del recurso: | http://hdl.handle.net/10757/676055 |
| Nivel de acceso: | acceso abierto |
| Materia: | campo magnético Gaussmeter Gaussímetro Hall effect sensor imán permanente magnetic field neodimio neodymium permanent magnet sensor de efecto Hall |
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| dc.title.es_PE.fl_str_mv |
Gaussimeter with automatic movement for the evaluation of the density of the magnetic flow in permanent magnets |
| title |
Gaussimeter with automatic movement for the evaluation of the density of the magnetic flow in permanent magnets |
| spellingShingle |
Gaussimeter with automatic movement for the evaluation of the density of the magnetic flow in permanent magnets Gonzales-Balladares, Julio David campo magnético Gaussmeter Gaussímetro Hall effect sensor imán permanente magnetic field neodimio neodymium permanent magnet sensor de efecto Hall |
| title_short |
Gaussimeter with automatic movement for the evaluation of the density of the magnetic flow in permanent magnets |
| title_full |
Gaussimeter with automatic movement for the evaluation of the density of the magnetic flow in permanent magnets |
| title_fullStr |
Gaussimeter with automatic movement for the evaluation of the density of the magnetic flow in permanent magnets |
| title_full_unstemmed |
Gaussimeter with automatic movement for the evaluation of the density of the magnetic flow in permanent magnets |
| title_sort |
Gaussimeter with automatic movement for the evaluation of the density of the magnetic flow in permanent magnets |
| author |
Gonzales-Balladares, Julio David |
| author_facet |
Gonzales-Balladares, Julio David Toque-Huamán, Evelyn Fukuda-Hernandez, Rafael Ryutaro |
| author_role |
author |
| author2 |
Toque-Huamán, Evelyn Fukuda-Hernandez, Rafael Ryutaro |
| author2_role |
author author |
| dc.contributor.author.fl_str_mv |
Gonzales-Balladares, Julio David Toque-Huamán, Evelyn Fukuda-Hernandez, Rafael Ryutaro |
| dc.subject.es_PE.fl_str_mv |
campo magnético Gaussmeter Gaussímetro Hall effect sensor imán permanente magnetic field neodimio neodymium permanent magnet sensor de efecto Hall |
| topic |
campo magnético Gaussmeter Gaussímetro Hall effect sensor imán permanente magnetic field neodimio neodymium permanent magnet sensor de efecto Hall |
| description |
The 2022 quarantine period exposed the need to design laboratory instruments that were accessible to students, allowing them to conduct experiments from home. Although many magnetism studies have developed manually displaced gaussmeters, only a few of them have been automated. Therefore, this study presents the design of a gaussmeter made with construction toy parts and an Arduino UNO development board to quantify the magnetic flux density in permanent magnets. To evaluate its operation, precision and robustness tests were carried out. In this way, the Kruskal-Wallis test showed similarity in the experimental readings with the WSH315 sensor between 1.62–3.54 cm. Meanwhile, the Wilcoxon-Mann-Whitney test showed limitations in terms of accuracy. And the Youden-Steiner test showed robustness to polarity rotation in the magnet at a distance of 1.19 cm with the AD22151 sensor. Finally, the experimental results showed proximity to analytical and numerical methods. Additionally, the results demonstrated the versatility of the gaussimeter to adapt to another sensor (MLX90393). Therefore, this design can be used to perform magnetism experiments at low cost. |
| publishDate |
2024 |
| dc.date.accessioned.none.fl_str_mv |
2024-10-07T11:43:12Z |
| dc.date.available.none.fl_str_mv |
2024-10-07T11:43:12Z |
| dc.date.issued.fl_str_mv |
2024-01-01 |
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info:eu-repo/semantics/article |
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article |
| dc.identifier.issn.none.fl_str_mv |
01024744 |
| dc.identifier.doi.none.fl_str_mv |
10.1590/1806-9126-RBEF-2024-0100 |
| dc.identifier.uri.none.fl_str_mv |
http://hdl.handle.net/10757/676055 |
| dc.identifier.journal.es_PE.fl_str_mv |
Revista Brasileira de Ensino de Fisica |
| dc.identifier.eid.none.fl_str_mv |
2-s2.0-85198097336 |
| dc.identifier.scopusid.none.fl_str_mv |
SCOPUS_ID:85198097336 |
| identifier_str_mv |
01024744 10.1590/1806-9126-RBEF-2024-0100 Revista Brasileira de Ensino de Fisica 2-s2.0-85198097336 SCOPUS_ID:85198097336 |
| url |
http://hdl.handle.net/10757/676055 |
| dc.language.iso.es_PE.fl_str_mv |
eng |
| language |
eng |
| dc.rights.es_PE.fl_str_mv |
info:eu-repo/semantics/openAccess |
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Attribution-NonCommercial-NoDerivatives 4.0 International |
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http://creativecommons.org/licenses/by-nc-nd/4.0/ |
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openAccess |
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Attribution-NonCommercial-NoDerivatives 4.0 International http://creativecommons.org/licenses/by-nc-nd/4.0/ |
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application/pdf |
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Sociedade Brasileira de Fisica |
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reponame:UPC-Institucional instname:Universidad Peruana de Ciencias Aplicadas instacron:UPC |
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Universidad Peruana de Ciencias Aplicadas |
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UPC |
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UPC |
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Revista Brasileira de Ensino de Fisica |
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46 |
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0852e1ef8c5ee3f01f3b1311415f8bdb50085d041703fc3bee9766b8cd723c5fa765005bf81e251852a650d9299dd98e3f9ca4300Gonzales-Balladares, Julio DavidToque-Huamán, EvelynFukuda-Hernandez, Rafael Ryutaro2024-10-07T11:43:12Z2024-10-07T11:43:12Z2024-01-010102474410.1590/1806-9126-RBEF-2024-0100http://hdl.handle.net/10757/676055Revista Brasileira de Ensino de Fisica2-s2.0-85198097336SCOPUS_ID:85198097336The 2022 quarantine period exposed the need to design laboratory instruments that were accessible to students, allowing them to conduct experiments from home. Although many magnetism studies have developed manually displaced gaussmeters, only a few of them have been automated. Therefore, this study presents the design of a gaussmeter made with construction toy parts and an Arduino UNO development board to quantify the magnetic flux density in permanent magnets. To evaluate its operation, precision and robustness tests were carried out. In this way, the Kruskal-Wallis test showed similarity in the experimental readings with the WSH315 sensor between 1.62–3.54 cm. Meanwhile, the Wilcoxon-Mann-Whitney test showed limitations in terms of accuracy. And the Youden-Steiner test showed robustness to polarity rotation in the magnet at a distance of 1.19 cm with the AD22151 sensor. Finally, the experimental results showed proximity to analytical and numerical methods. Additionally, the results demonstrated the versatility of the gaussimeter to adapt to another sensor (MLX90393). 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Nota importante:
La información contenida en este registro es de entera responsabilidad de la institución que gestiona el repositorio institucional donde esta contenido este documento o set de datos. El CONCYTEC no se hace responsable por los contenidos (publicaciones y/o datos) accesibles a través del Repositorio Nacional Digital de Ciencia, Tecnología e Innovación de Acceso Abierto (ALICIA).
La información contenida en este registro es de entera responsabilidad de la institución que gestiona el repositorio institucional donde esta contenido este documento o set de datos. El CONCYTEC no se hace responsable por los contenidos (publicaciones y/o datos) accesibles a través del Repositorio Nacional Digital de Ciencia, Tecnología e Innovación de Acceso Abierto (ALICIA).
