Work in Progress: Toward an Augmented Reality (AR) Learning Environment for Hispanic High School Students to Visualize and Embody STEM Spatial Transformations

Daniel A. Tillman; Wei Yan; Song An; Jeffrey Liew; Kien H. Lim; Lisa Garbrecht; Philip B. Yasskin

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Conference: 2023 ASEE Annual Conference & Exposition
Location: Baltimore , Maryland
Publication Date: June 25, 2023
Start Date: June 25, 2023
End Date: June 28, 2023
Conference Session: COED: Spotlight on Diverse Learners
Tagged Division: Computers in Education Division (COED)
Tagged Topic: Diversity
Page Count: 5
DOI: 10.18260/1-2--44371
Permanent URL: https://peer.asee.org/44371
Download Count: 148

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Paper Authors

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Daniel A. Tillman University of Texas, El Paso

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Dr. Tillman is an Associate Professor in Educational Technology, working primarily within the El Paso region of the southwestern United States. His research focuses on the implementation and assessment of innovative pedagogical approaches that address STEM inequities.

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Dr. Lim's research interests are on studentsâ€™ problem-solving disposition and instructional strategies to advance their ways of thinking. Dr. Lim is particularly interested in impulsive disposition, studentsâ€™ propensity to act out the first thing that

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Lisa Garbrecht University of Texas, Austin

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Philip B. Yasskin

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Abstract

Mathematics in high school has emerged as a barrier that prevents many minority students from pursuing advanced STEM courses in high school and college and limits their selection of STEM oriented careers—and within math, a key area of difficulty is spatial visualization. This work-in-progress paper describes a currently ongoing project that aims to improve both cognitive and socio-emotional student outcomes by: (1) increasing participants’ mathematics academic achievement, and (2) increasing participants’ engagement and other positive dispositions toward STEM instruction. Learning mathematics in engaging contexts through Augmented Reality (AR) that enables students to visualize and embody STEM spatial transformations, has the potential to improve students’ achievement and disposition in mathematics. The features of AR will enable participating pre-college students to see relationships between spatial manipulations and proportional reasoning, thereby bridging the spatial-mathematical divide, and because of the inherently visual nature of AR, AR-powered learning environments might be particularly helpful to addressing the language barriers that many Hispanic students confront while learning challenging mathematical concepts. The AR learning environment developed for this project enables representations for multiple different levels of abstraction to be visualized, but has so far only been tested with college students (with promising results) and so this project’s aim is to support evaluating the effectiveness of the AR learning with pre-college, high school students by using mixed methods research culminating in a quasi-experimental design. By providing AR-powered formal learning that addresses the language barriers that many Hispanic high school students encounter during mathematics instruction, this project can help remove barriers to STEM inclusion that have previously distanced minority students from the STEM education pipeline, while broader impacts from this project lie in the potential to improve minority population engagement and success in STEM fields.

Citation
Format

Tillman, D. A., & Yan, W., & An, S., & Liew, J., & Lim, K. H., & Garbrecht, L., & Yasskin, P. B. (2023, June), Work in Progress: Toward an Augmented Reality (AR) Learning Environment for Hispanic High School Students to Visualize and Embody STEM Spatial Transformations Paper presented at 2023 ASEE Annual Conference & Exposition, Baltimore , Maryland. 10.18260/1-2--44371

TY  - CPAPER
AB  - Mathematics in high school has emerged as a barrier that prevents many minority students from pursuing advanced STEM courses in high school and college and limits their selection of STEM oriented careers—and within math, a key area of difficulty is spatial visualization. This work-in-progress paper describes a currently ongoing project that aims to improve both cognitive and socio-emotional student outcomes by: (1) increasing participants’ mathematics academic achievement, and (2) increasing participants’ engagement and other positive dispositions toward STEM instruction. Learning mathematics in engaging contexts through Augmented Reality (AR) that enables students to visualize and embody STEM spatial transformations, has the potential to improve students’ achievement and disposition in mathematics. The features of AR will enable participating pre-college students to see relationships between spatial manipulations and proportional reasoning, thereby bridging the spatial-mathematical divide, and because of the inherently visual nature of AR, AR-powered learning environments might be particularly helpful to addressing the language barriers that many Hispanic students confront while learning challenging mathematical concepts. The AR learning environment developed for this project enables representations for multiple different levels of abstraction to be visualized, but has so far only been tested with college students (with promising results) and so this project’s aim is to support evaluating the effectiveness of the AR learning with pre-college, high school students by using mixed methods research culminating in a quasi-experimental design. By providing AR-powered formal learning that addresses the language barriers that many Hispanic high school students encounter during mathematics instruction, this project can help remove barriers to STEM inclusion that have previously distanced minority students from the STEM education pipeline, while broader impacts from this project lie in the potential to improve minority population engagement and success in STEM fields.
AU  - Daniel A. Tillman
AU  - Wei Yan
AU  - Song An
AU  - Jeffrey Liew
AU  - Kien H. Lim
AU  - Lisa Garbrecht
AU  - Philip B. Yasskin
CY  - Baltimore , Maryland
DA  - 2023/06/25
PB  - ASEE Conferences
TI  - Work in Progress: Toward an Augmented Reality (AR) Learning Environment for Hispanic High School Students to Visualize and Embody STEM Spatial Transformations 
UR  - https://peer.asee.org/44371
DO  - 10.18260/1-2--44371
ER  -