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1. Use of virtual reality to engage undergraduate students in environmental field experiences

   https://doi.org/10.1002/fer3.70003  

   Stoner, Elizabeth W; Salina, Steven C; Johnson, Erin M; Whitman, Elizabeth R; Archer, Stephanie K; McPherson, Brodie S; Cranmer, Alexana (April 2025, Future in Educational Research)

   Abstract Field‐based experiences enhance cognitive and affective skill sets of undergraduate students. Although field‐based learning is a highly effective pedagogical modality, it is not accessible to all students, necessitating the development and evaluation of alternate modalities that convey equivalent benefits. Virtual reality (VR) may allow students to engage in experiences without requiring them to be physically present within a field environment. Although VR is gaining popularity, there are limited examples of using it to simulate field experiences and of its efficacy in influencing student learning gains and attitudes toward environmental content. Therefore, we created immersive 360° cinematic VR (CVR) experiences focused on coastal marine ecosystems and compared them to traditional modalities: a field course and 2D videos focused on the same content. Students (n = 86) across science, technology, engineering, and mathematics (STEM) and non‐STEM majors from three institutions—Bentley University, Florida International University, and Louisiana Universities Marine Consortium—were given a preassessment/postassessment to understand learning gains and attitude changes related to each modality. Although significant learning gains happened across all modalities, CVR students experienced the greatest learning gains, though postscores were correlated with prescores and CVR students had lower prescores than field course students. There were no cross‐institutional or major‐related differences in learning gains for field course students. Students across all modalities experienced shifts in attitudes, with consistent increases in the use of keywords related to coastal marine ecosystems in postassessments. Ultimately, CVR is an effective supplement or alternative for undergraduate students who cannot access in‐person field‐based experiences and may be particularly impactful for non‐STEM majors. 

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2. Virtual Reality Teacher Professional Development: Voices from Teachers who Teach Students with Significant Cognitive Disabilities

   Garcia, Robert; Jones, Nastassia N. (March 2023, Proceedings of Society for Information Technology & Teacher Education International Conference)

   Langran, E.; Christensen, P.; Sanson, J. (Ed.)

   The use of technology has positively impacted instruction in math and science, including instruction for students with significant cognitive disabilities (SCD). Additionally, virtual reality (VR) technology has been used for students with SCD and has resulted in positive outcomes. However, it has not been widely adapted to teach science concepts to students with SCD, and part of that is the teacher's lack of understanding and technical knowledge of technology. This narrative case study aimed to describe the teachers of students with SCD’s knowledge, attitudes, and instructional practices as they engage in professional development and the use of VR in the classroom. To collect data, the researcher used interviews, virtual reality training, PD and classroom observations, and document analysis. The study showed that prior to this research, teachers did not use virtual reality in the classroom. They felt excited about getting trained on it and anxious in using it due to the spectrum of students’ cognitive abilities. Although they liked to use VR, they pointed out that “time to develop and/ or implement the technology in the classroom” was the biggest constraint. The teachers wanted to use VR to reinforce the concepts taught in the classroom. In conclusion, the teachers' professional development on virtual reality has allowed them opportunities to understand VR use in instruction and express their perceptions about it. 

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3. Elementary Teachers’ Perceptions and Enactment of Supplemental, Game-Enhanced Fraction Intervention

   https://doi.org/10.3390/educsci13111071  

   Hunt, Jessica; Taub, Michelle; Duarte, Alejandra; Bentley, Brianna; Womack-Adams, Kelly; Marino, Matthew; Holman, Kenneth; Kuhlman, Adrian (November 2023, Education Sciences)

   Curricula enhanced through the use of digital games can benefit students in their interest and learning of Science, Technology, Engineering, and Mathematics (STEM) concepts. Elementary teachers’ likelihood to embrace and use game-enhanced instructional approaches with integrity in mathematics has not been extensively studied. In this study, a sequential mixed methods design was employed to investigate the feasibility of a game-enhanced supplemental fraction curriculum in elementary classrooms, including how teachers implemented the curriculum, their perspectives and experiences as they used it, and their students’ resulting fraction learning and STEM interest. Teachers implemented the supplemental curriculum with varying adherence but had common experiences throughout their implementation. Teachers expressed experiences related to (1) time, (2) curriculum being too different, and (3) too difficult for students. Their strategies to handle those phenomena varied. Teachers that demonstrated higher adherence to the game-enhanced supplemental fraction curriculum had students that displayed higher STEM interest and fraction learning. While this study helps to better understand elementary teachers’ experiences with game-enhanced mathematics curricula, implications for further research and program development are also discussed. 

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4. Virtual Access to STEM Careers: Two Preliminary Investigations

   Ebrahimi, Elham; Morago, Brittany; Stocker, James; Moody, Amelia; Taylor, Amy; Pence, Toni; Jarrett, Matthew; Blackport, Blake (May 2022, Lecture notes in computer science)

   Chen, J.Y.C.; Fragomeni, G. (Ed.)

   Virtual Access to STEM Careers (VASC) is a technology-rich, inquiry and problem-based curriculum designed to expose and stimulate student interest in marine, environmental, computer, and geological sciences. Intended for 3rd through 5th grade students, VASC builds academic momentum at the intermediate level to prepare students for STEM opportunities later in middle school and high school. Our program is aligned with “Next Generation Science Standards” and “Common Core State Standards” and immerses students in rigorous, high-interest learning modules where students are introduced to and take on the roles of different STEM occupations. We are specifically developing and testing virtual reality-based modules that place students in a coastal environment where they learn about the sea turtle life-cycle. Students also practice the types of measurements and conservation tasks that park rangers and marine scientists regularly perform. The investigations focused on the design of a user interface that meets the needs of students and their teachers. We collected feedback on user interface design and knowledge gained by the users from the simulation. Additionally, we compared two different virtual reality head-mounted displays; i) HTC Vive and ii) Oculus Quest 2, to identify the pros and cons of each technology in future classroom settings. Our investigations yielded valuable information about how instructions should be presented to users, how the interface should provide immediate feedback for user error, how surveys should be administered, what equipment is most efficient for transporting and setting up large scale experiments in schools, and what types of interactions students and teachers want to experience in VASC. 

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5. Studying In-service Teacher Professional Development on Purposeful Integration of Engineering into K-12 STEM Teaching (Research to Practice)

   Gunning, A. M. (July 2021, American Society for Engineering Education 2021 Annual Conference)

   Integrated STEM approaches in K-12 science and math instruction can be more engaging and meaningful for students and often meet the curriculum content and practice goals better than single-subject lessons. Engineering, as a key component of STEM education, offers hands-on, designed-based, problem solving activities to drive student interest and confidence in STEM overall. However, K-12 STEM teachers may not feel equipped to implement engineering practices and may even experience anxiety about trying them out in their classrooms without the added support of professional development and professional learning communities. To address these concerns and support engineering integration, this research study examined the experiences of 18 teachers in one professional development program dedicated to STEM integration and engineering pedagogy for K-12 classrooms. This professional development program positioned the importance of the inclusion of engineering content and encouraged teachers to explore community-based, collaborative activities that identified and spoke to societal needs and social impacts through engineering integration. Data collected from two of the courses in this project, Enhancing Mathematics with STEM and Engineering in the K-12 Classroom, included participant reflections, focus groups, microteaching lesson plans, and field notes. Through a case study approach and grounded theory analysis, themes of self-efficacy, active learning supports, and social justice teaching emerged. The following discussion on teachers’ engineering and STEM self-efficacy, teachers’ integration of engineering to address societal needs and social impacts, and teachers’ development in engineering education through hands-on activities, provides better understanding of engineering education professional development for K-12 STEM teachers. 

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