Understanding resonance graphs using Easy Java Simulations (EJS) and why we use EJS

Autor:	Charles Chew, Loo Kang Wee, Samuel Tan, Darren Wong, Tat Leong Lee
Rok vydání:	2015
Předmět:	bepress|Physical Sciences and Mathematics|Physics Java Oscillation business.industry Physics - Physics Education FOS: Physical sciences General Physics and Astronomy Overlay Creative commons Education Amplitude Physics Education (physics.ed-ph) The Internet Android (operating system) business Scaling computer Simulation computer.programming_language
Zdroj:	Physics Education. 50:189-196
ISSN:	1361-6552 0031-9120
DOI:	10.1088/0031-9120/50/2/189
Popis:	This paper reports a computer model- simulation created using Easy Java Simulation (EJS) for learners to visualize how the steady-state amplitude of a driven oscillating system varies with the frequency of the periodic driving force. The simulation shows (N=100) identical spring-mass systems being subjected to (1) periodic driving force of equal amplitude but different driving frequencies and (2) different amount of damping. The simulation aims to create a visually intuitive way of understanding how the series of amplitude versus driving frequency graphs are obtained by showing how the displacement of the system changes over time as it transits from the transient to the steady state. A suggested how to use the model is added to help educators and students in their teaching and learning, where we explained the theoretical steady state equation, time conditions when the model starts allowing data recording of maximum amplitudes to closely match the theoretical equation and steps to collect different runs of degree of damping. We also discuss two design features in our computer model: A) displaying the instantaneous oscillation together with the achieved steady state amplitudes and B) explicit world view overlay with scientific representation with different degrees of damping runs. Three advantages of using EJS include 1) Open Source Codes and Creative Commons Attribution Licenses for scaling up of interactively engaging educational practices 2) models made can run on almost any device including Android and iOS and 3) allows for redefining physics educational practices through computer modeling. 2015 resource: http://iwant2study.org/ospsg/index.php/interactive-resources/physics/02-newtonian-mechanics/09-oscillations/88-shm24 Comment: 6 pages, 8 figures, Physics Education Journal
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::7a18ce786ed7136aa6fae398f0f2f564 https://doi.org/10.1088/0031-9120/50/2/189 Zobrazit plný text záznamu