Effects of Seating Location and Stereoscopic Display on Learning Outcomes in an Introductory Physical Geography Class

Recently, the use of stereoscopic three-dimensional (3-D) projection displays has increased in geoscience education. One concern in employing 3-D projection systems in large lecture halls, however, is that the 3-D effect is reported to diminish with increased angle and distance from the stereoscopic...

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Bibliographic Details
Published in:Journal of geoscience education 2014-02, Vol.62 (1), p.126-137
Main Authors: Hirmas, Daniel R., Slocum, Terry, Halfen, Alan F., White, Travis, Zautner, Eric, Atchley, Paul, Liu, Huan, Johnson, William C., Egbert, Stephen, McDermott, Dave
Format: Article
Language:English
Subjects:
Audience Response Systems
Class Organization
Classroom Environment
Computer Peripherals
Control Groups
Design
Education
Formative Evaluation
GeoWall
Introductory Courses
Outcomes of Education
Physical Geography
Projection Equipment
Proximity
Scientific Concepts
Scores
seating angle
seating distance
Spatial Ability
Student Evaluation
Summative Evaluation
Undergraduate Students
viewing angle
Visual Aids
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Summary:Recently, the use of stereoscopic three-dimensional (3-D) projection displays has increased in geoscience education. One concern in employing 3-D projection systems in large lecture halls, however, is that the 3-D effect is reported to diminish with increased angle and distance from the stereoscopic display. The goal of this work was to study that effect in a classroom "real-world" lecture environment where such technology would actually be employed. Introductory physical geography concepts were taught to undergraduate students at the University of Kansas through a GeoWall (passive 3-D projection system) display with either static diagrams or interactive globe imagery (Google Earth). Student learning was gauged using both formative (in-class clicker questions) and summative (exam) assessments. We evaluated the spatial structure of students' formative and summative scores for two concepts: Earth-Sun geometries, taught with static images only, and arid landscapes and aeolian processes, taught with Google Earth only. Three significant results were observed: (1) students' ability to accurately observe the 3-D effect was not restricted to the recommended seating angles when using static images, (2) no spatial patterns of improved learning were observed when using static images only; and (3) a significant difference in learning was observed based on seating angles when using Google Earth. Although this study did not compare learning outcomes against a control group, as would be done in a tightly controlled experimental setting, our findings imply that seating angle should be considered in the design of a new classroom equipped with a stereoscopic display or when choosing an existing classroom to retrofit with this technology, particularly, if interactive, globe imagery, such as Google Earth, is used as a primary teaching tool.
ISSN:1089-9995
2158-1428
DOI:10.5408/12-362.1