JVWR Newsletter

JVWR updates and newsletter.

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JVWR Previous Issues

Vol. 1, Issue 1 - Virtual Worlds Research: Past, Present & Future

   Editor:

  • Jeremiah Spence, University of Texas at Austin, USA

 

Vol. 1, Issue 2 - Consumer Behavior in Virtual Worlds

   Guest Editors:

  • Natalie Wood, Saint Joseph′s University, USA
  • Caja Thimm, University of Bonn, Germany

 

Vol. 1, Issue 3 - Cultures of Virtual Worlds

   Guest Editors:

  • Mia Consalvo, Ohio University, USA
  • Mark Bell, Indiana University, USA

 

Vol. 2, Issue 1 - Pedagogy, Education and Innovation in Virtual Worlds

   Guest Editors:

  • Leslie Jarmon, University of Texas at Austin, USA
  • Kenneth Y.T. Lim, Nanyang Technology University, Singapore
  • B. Stephen Carpenter, II, Texas A&M University, USA

 

Vol. 2, Issue 2 - 3D Virtual Worlds for Health and Healthcare

   Guest Editors:

  • Maged M. Kamel Boulos, University of Plymoth, UK
  • Susan Toth-Cohen, Thomas Jefferson University, USA
  • Simon Bignell, University of Derby, UK

 

Vol. 2, Issue 3 - Technology, Economy and Standards in Virtual Worlds

  Guest Editors:

  • Yesha Y. Sivan, Shenkar College & Metaverse Labs, Israel
  • Jean H.A. Gellissen, Philips Research, Netherlands
  • Robert Bloomfield, Cornell University, USA

 

Vol. 2, Issue 4 - Virtual Economies, Virtual Goods and Service Delivery in Virtual Worlds

  Guest Editors:

  • Mandy Salomon, Smart Services CRC, Australia
  • Serge Soudoplatoff, ESCP-EAP / Hetic, France

 

Creative Commons License

CrossRef Member

Visualizing Atomic Orbitals Using Second Life

 

Andrew Stuart Lang, David Kobilnyk

 

Abstract

We demonstrate the usefulness of Second LifeTM 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 based on quantum numbers.

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