SciSim
Abstract
Problem Statement
SciSim VR is an immersive virtual reality–based educational platform that reimagines traditional physics labs by integrating interactive 3D simulations with real-time feedback, graph generation, data logging, and theory support. Aimed at high school and university students, SciSim VR helps learners perform and visualize physics experiments in a fully interactive VR environment—eliminating the need for expensive physical labs. Developed using Unity, C#, and Firebase, the system provides modular, scalable simulations aligned with academic curricula. Users can manipulate parameters, analyze results, take quizzes, and listen to narrated theory via text-to-speech, enhancing both accessibility and engagement. Target audiences include schools, e-learning platforms, homeschooling setups, and universities, particularly in areas lacking lab facilities. By offering cost-effective, immersive, and inclusive learning, SciSim VR bridges the gap between theoretical understanding and hands-on experience, making physics education more accessible and engaging.
Traditional physics labs often require costly equipment, physical space, and manual supervision, limiting access for many students and institutions. Additionally, these setups may not cater to diverse learning styles or provide immediate feedback. There is a need for an engaging, interactive, and affordable alternative that supports effective learning and assessment. SciSim addresses this by offering immersive 3D simulations with real-time guidance and evaluation—making physics education more inclusive, interactive, and effective.
Architecture Diagram
Database Schema
Demo Video
Flow Diagram
Demo Video
Architecture Diagram
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Demo Video
Database Schema
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Demo Video
Watch the demo video below for a guided walkthrough of the project's key features and functionality. It offers a clear look at the system's interface, workflow, and how it performs in real-world scenarios.
Demo Video
Architecture Diagram
Explore the project’s source code on GitHub to dive deeper into its structure, logic, and implementation. The repository includes all files, documentation, and version history for those interested in the development process.
View the project poster for a visual summary of the concept, and methodology. It highlights the key components, architectural diagrams, and project outcomes in a concise, easy-to-understand format designed for quick review.
Project Poster
View the project poster for a visual summary of the concept, and methodology. It highlights the key components, architectural diagrams, and project outcomes in a concise, easy-to-understand format designed for quick review.
GitHub Link
Explore the GitHub repository for a complete view of the code, architecture, and implementation process. It provides version history, modular structure, and technical insight in a clear and accessible format.