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Chemistry In Second Life, Andrew Lang, Jean-Claude Bradley
Chemistry In Second Life, Andrew Lang, Jean-Claude Bradley
College of Science and Engineering Faculty Research and Scholarship
This review will focus on the current level on chemistry research, education, and visualization possible within the multi-user virtual environment of Second Life. We discuss how Second Life has been used as a platform for the interactive and collaborative visualization of data from molecules and proteins to spectra and experimental data. We then review how these visualizations can be scripted for immersive educational activities and real-life collaborative research. We also discuss the benefits of the social networking affordances of Second Life for both chemists and chemistry students.
The Spectral Game: Leveraging Open Data And Crowdsourcing For Education, Andrew Lang, Jean-Claude Bradley, Robert J. Lancashire, Anthony J. Williams
The Spectral Game: Leveraging Open Data And Crowdsourcing For Education, Andrew Lang, Jean-Claude Bradley, Robert J. Lancashire, Anthony J. Williams
College of Science and Engineering Faculty Research and Scholarship
We report on the implementation of the Spectral Game, a web-based game where players try to match molecules to various forms of interactive spectra including 1D/2D NMR, Mass Spectrometry and Infrared spectra. Each correct selection earns the player one point and play continues until the player supplies an incorrect answer. The game is usually played using a web browser interface, although a version has been developed in the virtual 3D environment of Second Life. Spectra uploaded as Open Data to ChemSpider in JCAMP-DX format are used for the problem sets together with structures extracted from the website. The spectra are …
Visualizing Atomic Orbitals Using Second Life, Andrew Lang, David C. Kobilnyk
Visualizing Atomic Orbitals Using Second Life, Andrew Lang, David C. Kobilnyk
College of Science and Engineering Faculty Research and Scholarship
We demonstrate the usefulness of Second Life as a platform for enlivening major concepts in chemistry education. These concepts include absorption spectra, selection rules, quantum numbers, and atomic orbital shapes. We have built several exhibits in Second Life which provide 3-dimensional interactivity for each of those areas: an interactive experiment showing the absorption spectrum of hydrogen, an interactive model of selection rules showing allowed and forbidden transitions for each state, a 3-dimensional grid of orbitals showing the constraints on the values of quantum numbers, and a large-scale interactive orbital display allowing the user to choose and rotate to-scale atomic orbitals …