About

 

Translations

Code	Language		Translator	Run

Credits

weelookang@gmail.com, Maria Jose Cano, Ernesto Martin, and Francisco Esquembre - Universidad Murcia, Fremont Teng

Briefing Document: Long Magnet Falling Through Long Coil Simulation

1. Overview

This document provides a summary of the "Long Magnet Falling Through Long Coil JavaScript Simulation Applet HTML5" resource available on the Open Educational Resources / Open Source Physics @ Singapore website. It outlines the simulation's purpose, key features, and its place within the broader context of open educational resources for physics.

2. Main Themes and Key Ideas:

• Interactive Physics Learning: The core theme is using interactive simulations to enhance physics education. The simulation allows users to visualize and explore the principles of electromagnetic induction in a dynamic way.
• Electromagnetic Induction: The specific physics concept addressed is electromagnetic induction. The simulation models the interaction between a falling magnet and a long coil, demonstrating how the magnet's motion induces a current in the coil.
• Open Educational Resources (OER): The resource is explicitly presented as an OER. This means it's intended to be freely available for use, adaptation, and distribution for educational purposes. The Creative Commons Attribution license confirms this.
• JavaScript/HTML5 Applet: The simulation is built using JavaScript and HTML5, making it accessible through web browsers without requiring additional plugins. This ensures broad compatibility across different devices and operating systems.
• MOSEM² Integration: It is mentioned to be a part of the MOSEM² Minds-On Physics Learning Resources, implying a structured pedagogical approach to its use.
• Authorship and Attribution: The document clearly identifies the authors and provides copyright information, emphasizing the importance of proper attribution when using the resource. "Title and author: Long Magnet falling through Long coil This email address is being protected from spambots. You need JavaScript enabled to view it. , Maria Jose Cano, Ernesto Martin, and Francisco Esquembre - Universidad Murcia, Fremont Teng © 2018, Creative Commons Attribution."
• Embeddable Content: The resource highlights the ease of embedding the simulation into other webpages via an <iframe> tag, promoting wider dissemination and integration into existing learning platforms.
• Learning Goals and Instructions: The document mentions "Sample Learning Goals" and "Instructions on Simulation Applet", suggesting supplementary materials are available to guide both students and teachers in effectively utilizing the simulation. It gives teachers additional methods of utilizing the simulation.
• A wide variety of other HTML5 applets: The page offers a large list of similar physics simulation applets such as "Bohr's Theory of the Hydrogen Atom JavaScript Simulation Applet HTML5" and "Charge Moving in 3D in Electric and Magnetic Force JavaScript HTML5 Applet Simulation Model". This signifies that the website contains a plethora of resources that may be valuable in physics classrooms.

3. Key Facts and Details:

• Title: Long Magnet falling through Long coil JavaScript Simulation Applet HTML5
• Authors: Maria Jose Cano, Ernesto Martin, Francisco Esquembre (Universidad Murcia), and Fremont Teng.
• License: Creative Commons Attribution (CC BY).
• Technology: JavaScript/HTML5
• Subject Area: Electromagnetic Induction, Physics
• Availability: Embeddable via <iframe> tag (link provided).
• Related Resources: Linked to MOSEM² Minds-On Physics Learning Resources and a long list of other applets.

4. Notable Quotes:

• "(Embed) this model in a webpage: " - This demonstrates the ease with which the simulation can be shared and integrated into other online learning environments.
• "© 2018, Creative Commons Attribution" – Highlights the open nature of the resource and the licensing terms.

5. Implications and Recommendations:

• For Educators: The simulation provides a valuable tool for teaching and illustrating the principles of electromagnetic induction. Educators should explore the associated learning goals and instructions to maximize its pedagogical effectiveness.
• For Developers: The use of JavaScript/HTML5 demonstrates a commitment to accessibility and cross-platform compatibility. This approach can serve as a model for developing other interactive educational resources.
• For Students: The simulation offers an engaging way to visualize and experiment with physics concepts that can be difficult to grasp through traditional textbook methods. Students should take advantage of the interactive features to explore different scenarios and deepen their understanding.
• Further Exploration: Explore the broader Open Educational Resources / Open Source Physics @ Singapore website for related simulations and resources.

6. Conclusion:

The "Long Magnet Falling Through Long Coil JavaScript Simulation Applet HTML5" is a valuable contribution to open educational resources for physics. Its interactive nature, clear focus on a key physics concept, and ease of integration make it a potentially powerful tool for enhancing student learning and engagement. The surrounding resources and initiatives of Open Source Physics @ Singapore further amplify its impact by providing a wider ecosystem of support and related learning materials.

 

Long Magnet Falling Through Long Coil Simulation Study Guide

Quiz

Answer the following questions in 2-3 sentences each.

1. What physics concept does the "Long Magnet Falling Through Long Coil" simulation primarily demonstrate?
2. Who are the credited authors of the "Long Magnet Falling Through Long Coil" simulation?
3. Under what license is the "Long Magnet Falling Through Long Coil" simulation released?
4. What is the purpose of the combo box in the "Long Magnet Falling Through Long Coil" simulation applet?
5. What is the format of the "Long Magnet Falling Through Long Coil" simulation?
6. Where is Universidad Murcia, one of the author's affiliations, located?
7. Name one other simulation listed on the page that involves electromagnetism.
8. What is the name of one of the awards mentioned on the page?
9. Besides simulations, what other types of resources are available on this website?
10. What is Easy JavaScript Simulations (EJS)?

Quiz Answer Key

1. The simulation demonstrates electromagnetic induction, specifically how the motion of a magnet through a coil generates an electric current. The falling magnet creates a changing magnetic flux, which induces a voltage in the coil, resulting in current flow.
2. The credited authors are Maria Jose Cano, Ernesto Martin, and Francisco Esquembre from Universidad Murcia, and Fremont Teng.
3. The simulation is released under a Creative Commons Attribution license. This allows for sharing and adaptation with proper attribution.
4. The combo box allows users to toggle between different options, such as switching between different graphs to visualize the data.
5. The simulation is in JavaScript HTML5 format, making it accessible through web browsers without requiring additional plugins.
6. Universidad Murcia is located in Spain.
7. One other simulation involving electromagnetism is the "Faraday Law JavaScript HTML5 Applet Simulation Model".
8. One of the awards mentioned is the UNESCO King Hamad Bin Isa Al-Khalifa Prize for the Use of ICTs in Education.
9. Besides simulations, the website also provides interactive recycling games and virtual labs.
10. EJS is a computer modeling tool used to build physics simulations.

Essay Questions

1. Discuss the educational value of the "Long Magnet Falling Through Long Coil" simulation in teaching electromagnetic induction. How does the interactive nature of the simulation enhance student understanding compared to traditional methods?
2. Explore the benefits and challenges of using open-source physics simulations in education. How does the Creative Commons license impact the accessibility and adaptability of these resources?
3. Analyze the role of simulations in promoting inquiry-based learning in physics. How can the "Long Magnet Falling Through Long Coil" simulation be used to design experiments and encourage students to explore the concepts of electromagnetic induction?
4. Compare and contrast the "Long Magnet Falling Through Long Coil" simulation with other types of simulations listed on the page. What are the unique features of this simulation, and how does it contribute to a comprehensive understanding of physics concepts?
5. Critically evaluate the design and user interface of the "Long Magnet Falling Through Long Coil" simulation. What improvements could be made to enhance its usability and effectiveness as a learning tool?

Glossary of Key Terms

• Electromagnetic Induction: The production of an electromotive force (EMF) across an electrical conductor in a changing magnetic field.
• JavaScript HTML5: A combination of programming language and markup language used to create interactive web content that can run in modern web browsers.
• Simulation: A computer-based model of a real-world system or phenomenon, used for educational or research purposes.
• Applet: A small application, often written in Java or JavaScript, that runs within another application, typically a web browser.
• Open Educational Resources (OER): Teaching, learning, and research materials that are freely available for anyone to use, adapt, and share.
• Open Source Physics (OSP): A collaborative project that develops and distributes open-source physics simulations and educational resources.
• Creative Commons Attribution License: A public copyright license that allows the distribution of copyrighted works and derivatives as long as the original author is credited.
• Magnetic Flux: A measure of the quantity of magnetism, taken as the number of magnetic field lines that pass through a surface.

Sample Learning Goals

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For Teachers

Instructions on Simulation Applet

Combo Box Options

Selecting World-Graphs

 

Research

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Video

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 Version:

Other Resources

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FAQ

• What is the "Long Magnet Falling Through Long Coil" simulation about?
• This simulation models the electromagnetic induction that occurs when a long magnet falls through a long coil of wire. As the magnet falls, its changing magnetic field induces a current in the coil, illustrating Faraday's Law of electromagnetic induction.
• Who created this simulation?
• The simulation was created by Maria Jose Cano, Ernesto Martin, and Francisco Esquembre from Universidad Murcia, and Fremont Teng.
• What are the main learning goals associated with this simulation?
• The document mentions "Sample Learning Goals" and "Research" but provides no specific details. More information might be found in the "MOSEM² Minds-On Physics Learning Resources", "For Teachers", and "Video" sections.
• Where can I embed this simulation?
• The provided HTML code <iframe width="100%" height="100%" src="https://iwant2study.org/lookangejss/05electricitynmagnetism_22electromagneticinduction/ejss_model_FallingMagnetweev06/FallingMagnetweev06_Simulation.xhtml " frameborder="0"></iframe> can be embedded in any webpage. This allows users to directly interact with the simulation from within their own websites or learning management systems.
• Are there other simulations or resources available on this website?
• Yes, the website hosts a large collection of interactive physics simulations covering a wide range of topics, including waves, optics, mechanics, electromagnetism, thermodynamics, and even some mathematics simulations. Examples include simulations of Young's double slit experiment, circuits, projectile motion, radioactive decay, and many more.
• Can these simulations be used for commercial purposes?
• The simulations themselves are licensed under a Creative Commons Attribution license, meaning they can be used and shared freely with attribution. However, for commercial use of the underlying EasyJavaScriptSimulations (EJS) library, you must read the specified license and contact fem@um.es.
• Are these resources only useful for physics education?
• While the primary focus is on physics, many simulations can be adapted or applied to other STEM fields, especially mathematics. There are listed simulations for chemistry, math, and engineering. The resources can also be integrated into different levels of education, from primary school to university.
• What other resources might I find on the site?
• The site hosts a variety of other educational resources, including interactive games, virtual labs, question generators, and tools for data analysis and video tracking. These resources cover a diverse array of topics and are designed to enhance learning through interactive engagement.