TY - JOUR
T1 - Immersive, interactive virtual field trips promote science learning
AU - Mead, Chris
AU - Buxner, Sanlyn
AU - Bruce, Geoffrey
AU - Taylor, Wendy
AU - Semken, Steven
AU - Anbar, Ariel D.
N1 - Funding Information:
This work was supported by the NASA EPOESS program (award #NNX11AH35G), the NASA Science Mission Directorate’s Science Activation Program (award #NNX16AD79G S01), the National Science Foundation TUES Program (award #1225741), the Howard Hughes Medical Institute, and the NASA Astrobiology Institute.
Funding Information:
This work was supported by the NASA EPOESS program (award #NNX11AH35G), the NASA Science Mission Directorate?s Science Activation Program (award #NNX16AD79G S01), the National Science Foundation TUES Program (award #1225741), the Howard Hughes Medical Institute, and the NASA Astrobiology Institute. We acknowledge Carol Oliver for her pioneering VFT work and direct contributions to the Nilpena iVFT; Phoebe Cohen, Jim Gehling, Michelle Minitti, and Roger Summons for their assistance in creating the Nilpena iVFT; Mike Hudec and Ken Herkenhoff for their assistance in creating the Upheaval Dome VFT; and Smart Sparrow, LLC for technical support. We also thank the three anonymous reviewers and the editorial staff for their thoughtful comments and suggestions.
Publisher Copyright:
© 2019, © 2019 National Association of Geoscience Teachers.
PY - 2019/4/3
Y1 - 2019/4/3
N2 - Field learning is considered an essential part of geoscience education, yet there are many practical challenges that limit broad and equitable access to field learning. Virtual field experiences can now help to broaden access to field learning. This work details the learning design and technical components of immersive, interactive virtual field trips (iVFTs). iVFTs take the established idea of a computer-based virtual field trip and add adaptive feedback and richer interactivity, which allow for active and more scientifically authentic learning experiences. By using adaptive learning technology, iVFTs can respond intelligently and automatically to student actions, guiding students through exploration, discovery, and analysis. We present evidence for the effectiveness of iVFTs in achieving learning objectives in both high school and undergraduate settings. Students from both samples showed large and statistically significant gains in content knowledge. Normalized gains on a six-item knowledge survey were.90 and.96, respectively (p <.001). This result broadly demonstrates the value of our iVFT designs. Follow-up research should rigorously study the effects of adaptive feedback, interactivity, and the other distinctive features of iVFTs on student learning.
AB - Field learning is considered an essential part of geoscience education, yet there are many practical challenges that limit broad and equitable access to field learning. Virtual field experiences can now help to broaden access to field learning. This work details the learning design and technical components of immersive, interactive virtual field trips (iVFTs). iVFTs take the established idea of a computer-based virtual field trip and add adaptive feedback and richer interactivity, which allow for active and more scientifically authentic learning experiences. By using adaptive learning technology, iVFTs can respond intelligently and automatically to student actions, guiding students through exploration, discovery, and analysis. We present evidence for the effectiveness of iVFTs in achieving learning objectives in both high school and undergraduate settings. Students from both samples showed large and statistically significant gains in content knowledge. Normalized gains on a six-item knowledge survey were.90 and.96, respectively (p <.001). This result broadly demonstrates the value of our iVFT designs. Follow-up research should rigorously study the effects of adaptive feedback, interactivity, and the other distinctive features of iVFTs on student learning.
KW - Virtual environments
KW - digital learning
KW - field learning
KW - online learning
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U2 - 10.1080/10899995.2019.1565285
DO - 10.1080/10899995.2019.1565285
M3 - Article
AN - SCOPUS:85063740179
VL - 67
SP - 131
EP - 142
JO - Journal of Geoscience Education
JF - Journal of Geoscience Education
SN - 1089-9995
IS - 2
ER -