Analyzing Concepts of Mechanical Wave Propagation Using Ubiquitous Devices

Katia Zegarra, Fanny L. Casado, Benjamin Castaneda, Ruben Sanchez

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

Abstract

We propose a methodology to learn concepts of Physics while using ubiquitous devices to perform activities during lab sessions applied to engineering students. Conventional laboratory experiences are traditionally limited to a fixed infrastructure despite the availability of lower cost portable sensors that allow their use in novel learning environments. The proposed methodology for experimental setup and development allows students to have enough time to generate critical thinking and self-determined learning aspects. The methodology is applied to two experiments on the generation of mechanical, transverse and longitudinal waves and their relationship among frequency, geometry and characteristics of the medium. These experiments were carried out by engineering sophomores. We conclude that this new methodology improved students' competition, autonomy, and relatedness.

Original languageEnglish
Title of host publicationEDUNINE 2023 - 7th IEEE World Engineering Education Conference
Subtitle of host publicationReimaging Engineering - Toward the Next Generation of Engineering Education, Merging Technologies in a Connected World, Proceedings
EditorsClaudio da Rocha Brito, Melany M. Ciampi
PublisherInstitute of Electrical and Electronics Engineers Inc.
ISBN (Electronic)9798350320503
DOIs
StatePublished - 2023
Event7th IEEE World Engineering Education Conference, EDUNINE 2023 - Bogota, Colombia
Duration: 12 Mar 202315 Mar 2023

Publication series

NameEDUNINE 2023 - 7th IEEE World Engineering Education Conference: Reimaging Engineering - Toward the Next Generation of Engineering Education, Merging Technologies in a Connected World, Proceedings

Conference

Conference7th IEEE World Engineering Education Conference, EDUNINE 2023
Country/TerritoryColombia
CityBogota
Period12/03/2315/03/23

Keywords

  • educational environment
  • experiential learning
  • general physics
  • self-determination
  • sophomore curriculum
  • ubiquitous devices

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