Computer Program Detail Page
Ejs Intro SpringLab Model
written by Anne Cox, Wolfgang Christian, and Mario Belloni
supported by the National Science Foundation
This inquiry-based resource asks students to develop a computer model for a mass on a spring. Designed specifically for students with no prior experience in computer modeling, the lesson opens with a hands-on lab where students investigate spring-and-mass systems, record data, and analyze results. Afterward, they use the Intro SpringLab computer modeling tool to build their own model of a mass on a spring. Finally, they compare the results of their computer models with the real-life results obtained in the lab.
Editor's Note: The Easy Java Simulation tool greatly reduces the amount of programming required to develop computer models. Exercises in student-generated modeling are becoming much more widespread in physics education because of the opportunities for students to test and apply their own prototypes to explain and predict physical phenomena.
SEE RELATED MATERIALS for a link to the EJS Modeling and Authoring Tool, which students will need to develop their models.
This resource also includes a detailed instructor's guide, instructor's notes with solutions, laboratory exercises, and tips for constructing the models.
Please note that this resource requires at least version 1.5 of Java.
3 supplemental documents are available
A pdf document that briefly describes the Ejs Intro SpringLab model. It describes how to use the stp_intro_SpringLab.jar file with Ejs and contains associated laboratory exercises and instructors notes.
download 64kb .pdf
Published: May 28, 2008
The materials distributed in this directory are in support of the Ejs Intro SpringLab model. This distribution contains the Ejs Intro SpringLab model, documentation and laboratory exercises but not Ejs itself. Information about Ejs (Easy Java Simulations) is available at: http://www.um.es/fem/Ejs/.
download 2169kb .zip
Published: May 28, 2008
A modification of the EJS spring lab that allows students to load experimental data (y vs t and v vs t) into EJS in order to compare experiment and theory data on the same plot. This zip archive contains the EJS file, a PDF of the experiment description, and a text file containing example data.
download 111kb .zip
Last Modified: November 12, 2011
1 source code document is available
AAAS Benchmark Alignments (2008 Version)
4. The Physical Setting
11. Common Themes
This resource is part of a Physics Front Topical Unit.
Topic: Periodic and Simple Harmonic Motion
Unit Title: Conservation of Energy and Forces on a Spring
Student-generated computer models are becoming much more widespread in physics education because of the opportunity for kids to test and apply their own prototypes. This resource lets them develop a model for a mass on a spring. It opens as a simple simulation for them to explore, record, and analyze data. Afterward, they use the Intro SpringLab computer modeling tool to built their own model and compare results with the real-life experimental results.Link to Unit:
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Ejs Intro SpringLab Model:
Is Based On Easy Java Simulations Modeling and Authoring Tool
The Easy Java Simulations Modeling and Authoring Tool is needed to explore the computational model used in the Intro SpringLab resource.relation by Caroline Hall
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