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20170629 N3 Cluster’s 7th ICT Symposium 2017

 

1. Overview

This document summarizes the key information presented in the provided material, which primarily focuses on the "Open Source Physics at Singapore" (OSP@SG) initiative, a project by the Singapore Ministry of Education (MOE). It highlights the program’s goals, resources, pedagogical approaches, and impact, as presented in the context of an invitation to a presenter at the N3 Cluster’s 7th ICT Symposium.

2. Key Themes

3. Key Facts and Information

4. Proposed Presentation

The presentation for the symposium is titled “Developing simulations and video analysis and modelling for Physics education.” This indicates the importance of these specific tools within the OSP@SG ecosystem.

5. Implications

6. Conclusion

The OSP@SG project, as presented in this document, is a comprehensive effort to integrate ICT and open resources into physics education. Its focus on active learning, conceptual understanding, and community involvement highlights a path forward for preparing students to be successful in a technologically advanced world. The document also points to a strong, ongoing, and international network of educators and experts supporting and advancing open source educational resources.

 

 

N3 Cluster’s 7th ICT Symposium http://n3ict.weebly.com/programme.html
8th June 2017
3 to 5 pm
Compassvale Secondary School 

The purpose of this letter is to formally invite you, on behalf of the PLLDC, to be the Concurrent Session Presenter at our upcoming N3 Cluster’s 7th ICT Symposium. The N3 ICT Symposium is an annual event which brings together thought leaders,teacher practitioners and educational researchers for a noble purpose- to share their insights, practices, experiences and research studies in the use of technology to advance 21st century teaching and learning .This is also a platform that changes how Educators perceive, think about and understand the role of ICT in today’s technological and globally connected environment. The Symposium will be held on 28th June 2017 at Compassvale Secondary School at 3 pm.

The Symposium deliberations will be on the following themes:


  1. Educators as Learning Designers harnessing technology for curriculum, pedagogy and assessment
  2. Responsible Digital Users


This symposium seeks to enhance teachers’ competencies as designers of learning who are guided by learning principles and sound pedagogical approaches to plan for their lessons. Teachers harness ICT to design for active learning and monitor and to provide feedback to advance learning. The symposium also seeks to emphasise the importance of the roles educators play in helping students understand their roles and responsibilities in a digitally mediated world.

Your experience and expertise in the field of using computer models in Science education will be an excellent addition to our symposium programme as many of our participants will look forward to hearing and learning from your work. It is therefore an honour to be able to invite you as our Concurrent Session Presenter for a talk on

“Developing simulations and video analysis and modelling for Physics education” as we are aware of your great contribution to this field of work.

We look forward to a positive confirmation. If you could kindly RSVP to me by 1st April 2017 and from there I can provide you with any additional information you might require.



https://docs.google.com/presentation/d/1X4qFLog44l7pf_4f-AIgPU5sk3Is0e8vZeRpALmKYWk/pub?start=true&loop=true&delayms=3000

Abstract:

Developing simulations and video analysis and modelling for Physics education

Open Source Physics at Singapore (OSP@SG) is a project by Singapore Ministry of Education which helps teachers bring real-world physics concepts into the classroom.

The programme is innovative in that it complements real-life experiments by providing interactive resources that help visualisation. The programme also has a function for mathematical modelling, where students’ ideas can be 'tested' or modelled and compared with real life or simulated data. It is accessible anytime, anywhere because students can run the programme on computers and mobile devices. 

The talk will bring participants to access the website with 300+ open source and open educational digital resources that runs on their own mobile devices. There are apps and e-books on Android Playstore and Apple App Store that can download these resources for offline use.

Since 2012, MOE has been collaborating with schools¹ on OSP@SG, with positive feedback received on the project both in Singapore and around the world. Some benefits include enhanced students’ learning through the student-centric pedagogy where students learn to experiment like real life scientists using modelling and simulation. Students could better visualise, explore and discover abstract physics concepts through manipulation and modelling techniques. In addition, an interest-based learning community for the OSP@SG has been formed. This community include the many OSP experts namely, Professor Francisco Esquembre, Fu-Kwun Hwang, Wolfgang Christian, Felix Garcia and Douglas Brown and many more in the world who helped to develop the materials to sustain the community. By networking and learning with the experts, teachers in local schools are now taking greater ownership of the materials they author by either remixing the models or creating new worksheets to support the guided inquiry or modelling pedagogy afforded through OSP@SG.

The key message is ICT plays an integral role in preparing our students to be Future-ready Learners and as Future-ready Learners, students use ICT productively to deepen subject mastery and develop 21st Century Competencies.

footnote
¹ Anderson Junior College, Evergreen Secondary School, Hwa Chong Institution, Innova Junior College, Meridian Junior College, National Junior College, Raffles Girls’ Secondary School, River Valley High School, Saint Andrew’s Junior College, Serangoon Junior College, Victoria Junior College and Yishun Junior College.

FAQ on Open Source Physics at Singapore (OSP@SG)

  1. What is Open Source Physics at Singapore (OSP@SG), and what is its primary goal? OSP@SG is a project by the Singapore Ministry of Education designed to bring real-world physics concepts into classrooms. Its primary goal is to complement hands-on experiments with interactive, digital resources. These resources enable visualization and mathematical modeling, allowing students to test ideas, compare them with real or simulated data, and ultimately deepen their understanding of physics principles.
  2. How does OSP@SG enhance the learning experience for students? OSP@SG enhances learning through a student-centric approach. It provides tools that allow students to experiment, visualize, explore, and discover abstract physics concepts. Using interactive simulations, students can engage in mathematical modeling, which empowers them to learn by acting like scientists. The resources are accessible on computers and mobile devices anytime and anywhere, making learning more flexible and convenient.
  3. What kind of resources are available through OSP@SG?> OSP@SG offers over 300 open-source digital resources including simulations, video analysis tools, mathematical modeling tools, and e-books. These resources are designed to run on computers and mobile devices, available as apps on Android Playstore and Apple App Store for offline access. The materials cover a broad range of physics topics, often incorporating real-world scenarios to promote engagement.
  4. What is the role of teachers in the OSP@SG framework? Teachers play a crucial role as designers of learning, using OSP@SG tools to create active learning experiences. They are encouraged to harness ICT to monitor student progress and provide timely feedback. Importantly, the OSP@SG initiative aims to cultivate teachers’ competencies by involving them in modifying existing resources or creating new ones, which can better suit their unique classroom needs and promote guided inquiry or modeling-based pedagogy.
  5. How does OSP@SG foster a community of educators and experts? OSP@SG has fostered an interest-based learning community of educators, developers and experts, including notable figures like Professor Francisco Esquembre, Fu-Kwun Hwang, Wolfgang Christian, Felix Garcia and Douglas Brown. This community collaborates on creating and improving materials and helps teachers take ownership of resources by remixing or generating them, providing continuous support through networking and knowledge-sharing.
  6. How does OSP@SG integrate with broader educational goals? OSP@SG plays an essential role in preparing students to be Future-Ready Learners. It integrates ICT to deepen subject mastery and foster the 21st Century Competencies needed to thrive in a technology-driven and globally connected environment. This approach goes beyond rote memorization, emphasizing the ability to apply theoretical knowledge to real-world challenges.
  7. Beyond Physics, are there any resources applicable to other subjects within OSP@SG?> While the focus is primarily on physics, the project includes tools and simulations that have cross-curricular applications. Examples include resources that cover mathematics such as fractions and numbers and tools for data fitting, geometry (drawing 3D shapes), modeling, and interactive games that promote digital literacy. These can be integrated across multiple subjects to enhance students' overall learning experience.
  8. How can teachers get started with OSP@SG and use its resources in their classrooms? Teachers can start by accessing the OSP@SG website, which provides access to all open-source materials. They can download the resources to their computers or mobile devices via app stores. Additionally, the website features many examples of how to utilize these resources in lesson planning, to guide and support guided inquiry and modeling activities. The collaborative learning community that is part of OSP@SG also provides valuable opportunities for professional development and sharing best practices.