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Magnet on Car Inquiry Primary Science JavaScript HTML5 Applet Simulation Model

 

 

 

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Translations

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Credits

This email address is being protected from spambots. You need JavaScript enabled to view it.; Anne Cox; Wolfgang Christian; Francisco Esquembre

Resources / Open Source Physics @ Singapore website. Sources: Excerpts from the webpage of the "Magnet on Car Inquiry Primary Science JavaScript HTML5 Applet Simulation Model" (two identical excerpts provided).

Overview:

The provided sources are excerpts from the Open Educational Resources / Open Source Physics @ Singapore website, specifically focusing on the "Magnet on Car Inquiry Primary Science JavaScript HTML5 Applet Simulation Model." This briefing document will outline the key themes and important information gleaned from these excerpts, highlighting the purpose, accessibility, credits, related resources, and broader context of this educational tool within the larger collection of open-source physics resources.

Main Themes and Important Ideas/Facts:

  1. Focus on Inquiry-Based Primary Science Education: The title itself, "Magnet on Car Inquiry Primary Science JavaScript HTML5 Applet Simulation Model," immediately indicates its target audience (primary science) and pedagogical approach (inquiry-based learning). The use of a simulation model suggests an interactive way for students to explore magnetic forces and their effects on motion.
  2. Availability as an Open Educational Resource (OER): The website name, "Open Educational Resources / Open Source Physics @ Singapore," underscores that this simulation model, and likely the other resources listed, are intended to be freely available for educational use. The Creative Commons Attribution-Share Alike 4.0 Singapore License mentioned at the bottom reinforces this point.
  3. Interactive JavaScript HTML5 Applet: The description explicitly states that the tool is a "JavaScript HTML5 Applet Simulation Model." This is significant as it implies the simulation can be embedded and run directly in modern web browsers without the need for additional plugins like Java applets, enhancing its accessibility.
  4. Specific Focus on Electricity and Magnetism: The breadcrumbs navigation ("Home > Magnet on Car Inquiry Primary Science JavaScript HTML5 Applet Simulation Model > Primary > Electricity and Magnetism") clearly categorizes this simulation within the domain of electricity and magnetism, a common topic in primary science curricula.
  5. Embeddable Model: The provision of an iframe embed code ("<iframe width="100%" height="100%" src="https://iwant2study.org/lookangejss/05electricitynmagnetism_20magnetism//ejss_model_twomagnets4/twomagnets4_Simulation.xhtml " frameborder="0"></iframe>") is a crucial aspect of OER. It allows educators to easily integrate this interactive simulation into their own webpages, learning management systems, or other online platforms.
  6. Translations: The presence of a "Translations" section suggests an effort to make the resource accessible to a wider, potentially multilingual, audience. While the provided excerpts don't list specific translations, the existence of this section indicates a commitment to broader usability.
  7. Credits to Developers: The "Credits" section acknowledges the individuals involved in the creation of this resource: "This email address is being protected from spambots. You need JavaScript enabled to view it. ; Anne Cox; Wolfgang Christian; Francisco Esquembre." This is important for recognizing contributions and potentially for users to contact the developers for support or feedback.
  8. Version History: The "Version" information ("1. http://weelookang.blogspot.com/2018/06/magnet-on-car-inquiry-primary-science.html") indicates that the simulation has been updated or has an associated development blog post, potentially providing further context or information about its evolution.
  9. Related Resources: A significant portion of the excerpt lists numerous "Other Resources." These links point to a wide array of other JavaScript HTML5 applet simulations covering various topics in physics and mathematics, categorized by specific needs (e.g., "Need a Bar Magnet and Earth?", "Need 2 Bars Magnet?"). This highlights the extensive collection of interactive tools available on the platform. The list includes simulations relevant to magnetism, mechanics, waves, electricity, optics, mathematics, and even games.
  10. Broader Educational Scope: The sheer number and variety of the listed "Other Resources" demonstrate the platform's commitment to providing interactive learning tools across a broad spectrum of science and mathematics topics, targeting different educational levels (as suggested by tags like "Primary," "Secondary," "Junior College").
  11. Technology Focus: The consistent use of "JavaScript HTML5 Applet Simulation Model" across the listed resources emphasizes the platform's reliance on modern web technologies to deliver interactive educational content.
  12. Community and Collaboration: The credits, translation efforts, and the existence of numerous resources likely developed by different individuals (e.g., Leongster, MeiYoke, Douglas Brown, PHET contributors) suggest a collaborative and community-driven approach to creating and sharing open educational resources.
  13. Alignment with Educational Trends: The inclusion of resources related to the "Student Learning Space (SLS)" and the mention of "EdTech NLC YIJC Kinematics Quiz conversion from DOC/PDF to SLS components" indicate an alignment with and support for national educational initiatives and platforms in Singapore.
  14. Popular Tags: The "Popular Tags" section provides insights into the frequently accessed topics on the website, including "Oscillations," "Secondary4," "Mathematics," "Calculus," "Newtonian Mechanics," and "Games," suggesting the areas of strongest interest among users.
  15. Commercial Use Licensing: The note about commercial use of the "EasyJavaScriptSimulations Library" with a link to the license and contact information clarifies the terms for using the underlying technology in commercial applications, distinguishing it from the Creative Commons license applied to the educational content itself.

Quotes from Original Sources:

  • "Magnet on Car Inquiry Primary Science JavaScript HTML5 Applet Simulation Model" - This title clearly defines the resource.
  • <iframe width="100%" height="100%" src="https://iwant2study.org/lookangejss/05electricitynmagnetism_20magnetism//ejss_model_twomagnets4/twomagnets4_Simulation.xhtml " frameborder="0"></iframe> - This demonstrates the ease of embedding the simulation.
  • "This email address is being protected from spambots. You need JavaScript enabled to view it. ; Anne Cox; Wolfgang Christian; Francisco Esquembre" - This credits the developers.
  • "Contents are licensed Creative Commons Attribution-Share Alike 4.0 Singapore License" - This specifies the open licensing terms.

Conclusion:

The "Magnet on Car Inquiry Primary Science JavaScript HTML5 Applet Simulation Model" is a valuable open educational resource designed for primary science education, focusing on the principles of electricity and magnetism through an interactive simulation. Its availability as a JavaScript HTML5 applet ensures broad accessibility and ease of embedding. It is part of a much larger collection of freely available physics and mathematics simulations developed and shared by the Open Educational Resources / Open Source Physics @ Singapore initiative, highlighting a commitment to interactive, inquiry-based learning and the use of modern web technologies in education. The platform fosters collaboration and aligns with national educational trends, making it a significant resource for educators and learners.

 

 

Magnet on Car Inquiry Study Guide

Quiz

  1. What is the primary focus of the "Magnet on Car Inquiry" simulation model according to the webpage title and its categorization?
  2. Where can a user find the embedded code to include this simulation model on a webpage? Briefly describe the nature of this code.
  3. Who are credited for the development or translation of this specific simulation model?
  4. What is the purpose of the provided version link (http://weelookang.blogspot.com/2018/06/magnet-on-car-inquiry-primary-science.html)?
  5. List three examples of "Other Resources" provided on the page that are related to magnetism.
  6. What do the numerous listed items below "Other Resources" primarily consist of? Provide two specific examples.
  7. What is the licensing agreement for the contents of the Open Educational Resources / Open Source Physics @ Singapore website?
  8. What should one do if they wish to use the EasyJavaScriptSimulations Library for commercial purposes?
  9. Under which primary science topic is the "Magnet on Car Inquiry" model listed?
  10. What does the "Embed this model in a webpage" section suggest about the intended use and accessibility of the simulation?

Quiz Answer Key

  1. The primary focus of the "Magnet on Car Inquiry" simulation model is for primary science education, specifically within the topic of electricity and magnetism. It appears to be an interactive tool for learning about magnets, possibly in the context of motion.
  2. The embedded code can be found under the "Embed this model in a webpage:" heading. It is an iframe tag, which allows a webpage to display content from another source, in this case, the simulation itself.
  3. The credited individuals for this model include the email address being protected from spambots, Anne Cox, Wolfgang Christian, and Francisco Esquembre. Their specific roles (developer, translator, etc.) are not explicitly stated.
  4. The version link (http://weelookang.blogspot.com/2018/06/magnet-on-car-inquiry-primary-science.html) likely leads to a blog post or webpage providing more context, background information, or instructions related to the "Magnet on Car Inquiry" simulation.
  5. Three examples of "Other Resources" related to magnetism are: Need a Bar Magnet and Earth?, Need a Bar Magnet Field Line?, and Need 2 Bars Magnet?.
  6. The numerous listed items below "Other Resources" primarily consist of links to other JavaScript HTML5 applet simulation models. Two specific examples are "PICUP Refractive Indices of Water and Air JavaScript Simulation Applet HTML5" and "Kinematics Car and Bus Y Direction Simulator JavaScript Simulation Applet HTML5".
  7. The contents of the Open Educational Resources / Open Source Physics @ Singapore website are licensed under the Creative Commons Attribution-Share Alike 4.0 Singapore License.
  8. For commercial use of the EasyJavaScriptSimulations Library, one should read the license at https://www.um.es/fem/EjsWiki/Main/EJSLicense and contact This email address is being protected from spambots. You need JavaScript enabled to view it. directly.
  9. The "Magnet on Car Inquiry" model is listed under the primary science topic of Electricity and Magnetism.
  10. The "Embed this model in a webpage" section suggests that the simulation is designed to be easily shared and integrated into various online learning environments or educational websites, increasing its accessibility for users.

Essay Format Questions

  1. Discuss the potential pedagogical benefits of using interactive JavaScript HTML5 applet simulations, such as the "Magnet on Car Inquiry" model, in primary science education. Consider factors like student engagement, conceptual understanding, and inquiry-based learning.
  2. Analyze the range and variety of simulation models offered on the Open Educational Resources / Open Source Physics @ Singapore website. What does this suggest about the platform's goals and the potential audience it serves?
  3. Examine the credits and licensing information provided for the "Magnet on Car Inquiry" model. Why is attribution and open licensing important in the context of open educational resources?
  4. Based on the limited information provided, hypothesize about the possible features and functionalities of the "Magnet on Car Inquiry" simulation model. What kind of inquiries or experiments might primary science students be able to conduct using it?
  5. Evaluate the overall design and organization of the webpage featuring the "Magnet on Car Inquiry" simulation. How effective is it in providing access to the resource and relevant supplementary information for educators and students?

Glossary of Key Terms

  • JavaScript: A programming language commonly used to create interactive effects within web browsers.
  • HTML5: The latest evolution of the standard markup language for creating web pages and web applications, supporting multimedia and interactive content without the need for plugins.
  • Applet: A small application, often written in Java or other programming languages, designed to run within another application, typically a web browser. In this context, the simulations are HTML5 applets, indicating they run within web browsers.
  • Simulation Model: A computer program that imitates the behavior of a real-world system or process, allowing users to explore and interact with it.
  • 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 project that promotes the use and development of open-source computational tools for physics education.
  • Embed: To integrate content from one digital source into another, such as placing a video or simulation within a webpage.
  • Iframe: An HTML element that creates an inline frame, allowing one HTML document to be embedded within another HTML document.
  • Primary Science: Science education aimed at elementary or grade school students, typically focusing on foundational scientific concepts and inquiry skills.
  • Electricity and Magnetism: A branch of physics that studies the relationship between electric charges and magnetic fields.

 

 Version:

  1. http://weelookang.blogspot.com/2018/06/magnet-on-car-inquiry-primary-science.html

Other Resources

  1. Need a Bar Magnet and Earth?
  2. Need a Bar Magnet Field Line?
  3. Need 2 Bars Magnet?
  4. Need a 3D visualization of a Bar Magnet Field Line?
  5. Need 2 Bar Magnets on a level surface for Primary School Science?
  6. Need Riveting and Rotating Paperclip and Magnet to demonstrate magnetism passes through non-magnetic materials
  7. Need Suspended Magnet with effects of Heating?
  8. Need Stacking Ring Magnets?
  9. Need More Simulations? Check this out!

  10.  

    Frequently Asked Questions: Open Source Physics @ Singapore Simulations

    What is the primary focus of the Open Educational Resources / Open Source Physics @ Singapore website?

    The primary focus of the website is to provide a wide range of interactive physics and mathematics simulations and learning tools, primarily built using JavaScript and HTML5. These resources are designed to support teaching and learning at various levels, from primary school to junior college, and cover diverse topics in electricity and magnetism, mechanics, waves, optics, mathematics, and more.

    What is the "Magnet on Car Inquiry" simulation and for whom is it intended?

    The "Magnet on Car Inquiry" simulation is a primary science JavaScript HTML5 applet designed to help young learners explore basic concepts of magnetism. The "inquiry" aspect suggests it's structured to encourage students to ask questions and investigate the behavior of magnets, possibly in the context of a car model.

    What are the technologies primarily used to develop these simulations?

    The simulations are primarily developed using JavaScript and HTML5, making them accessible through web browsers without the need for additional plugins. The website also mentions the use of the EasyJavaScriptSimulations (EJS) Library for some of the simulations.

    Is the content on the Open Source Physics @ Singapore website free to use?

    Yes, the content is provided as Open Educational Resources (OER) and is licensed under the Creative Commons Attribution-Share Alike 4.0 Singapore License. This allows for free use, adaptation, and sharing, provided that attribution is given and any derivative works are shared under a similar license. However, commercial use of the EasyJavaScriptSimulations Library requires reading their specific license and contacting them directly.

    What types of physics and mathematics topics are covered by the simulations offered?

    The website offers a vast collection of simulations covering a wide array of topics. In physics, these include electricity and magnetism (e.g., magnetic fields, circuits, Faraday's law), mechanics (e.g., kinematics, collisions, oscillations), waves (e.g., reflection, interference, electromagnetic waves), optics (e.g., refraction, lenses), and thermodynamics (e.g., heat conduction). In mathematics, topics range from basic arithmetic and algebra to calculus, differential equations, geometry, complex numbers, and even games with mathematical principles.

    Are these simulations only for students, or can educators also benefit from them?

    Both students and educators can significantly benefit from these simulations. For students, they offer interactive and visual ways to understand abstract concepts and experiment with different parameters. For educators, they provide valuable tools for classroom demonstrations, interactive lessons, and inquiry-based learning activities. The website even has resources and mentions collaborations with educational institutions and teachers.

    How can one access and use these simulations?

    The simulations are generally embedded directly on the website via iframes, or links are provided to run them in a new window. Users can simply navigate to the desired simulation and interact with it through their web browser. In some cases, code or translation options are also available. The website also provides an "Embed" option for some models, allowing them to be integrated into other webpages.

    What are some examples of simulations available beyond the "Magnet on Car Inquiry"?

    Beyond the "Magnet on Car Inquiry," the website hosts hundreds of simulations. Some examples include: simulations on bar magnets and their fields, circuits (DC and AC), kinematics and motion, oscillations, waves, optics (lenses, mirrors, refraction), mathematical concepts like calculus, differential equations, fractals, and games that illustrate mathematical or physics principles. There are also simulations related to specific educational contexts, such as the Student Learning Space (SLS) in Singapore.

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Parent Category: 05 Electricity and Magnetism
Category: 07 Magnetism
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