Virtual Digital Laboratory Vernier as a Tool of Implementing STEM-Education Principles in Physics Lessons

Abstract

The article highlights the results of the theoretical and methodological analysis of the issue of the use of the Vernier digital virtual laboratory as an innovative tool for implementing the principles of STEM education in physics lessons in high school. The purpose of this research paper is to justify the feasibility of integrating digital laboratories into the physics curriculum, which allows for its modernization through the integration of science, technology, engineering and mathematics. The study's methodological foundation is based on the active learning concept developed by D. Sokoloff, R. Thornton and P. Laws. According to it, the active nature of learning physics using the Vernier digital laboratory is ensured by the ability to conduct real, high-precision, and multiple measurements of various physical quantities, analyze the obtained data, visualize them as graphs or charts, and interactively adjust and generalize the results of the experiment. The main advantages and disadvantages of using this innovative learning tool have been analyzed, and its compliance with safety, accessibility and adaptability requirements has been determined. The content of implementing the scientific, technological, engineering and mathematical aspects of STEM education through the methodology of using the Vernier digital laboratory in physics lessons has been explored. An example of a tentative lesson plan for a physics class using the Vernier digital laboratory is provided. Based on the conducted research and the practice of using the Vernier digital laboratory in middle school physics lessons, it has been concluded that it has significant and comprehensive educational potential as an innovative tool for implementing STEM education principles.