Purpose: This project team will fully develop and test SuperChemVR, a virtual environment integrated within a Virtual Reality (VR) headset for an immersive exploration of a chemistry lab. While chemistry labs offer the benefits of hands-on experimentation to help students learn abstract concepts, they are costly to maintain, supervise, and pose safety risks. Virtual chemistry labs for computers and tablets allow students to explore chemistry safely with unlimited resources, and provide immediate feedback and automated assessments, but these "point-and click" experiences are not immersive or hands-on. Immersive VR allows users to fully experience an interactive, 3-Dimensional 360-degree environment.
Project Activities: During Phase I, (completed in 2016), the team developed a prototype of SuperChemVR, including a virtual chemistry lab environment within which students immerse themselves while wearing a VR headset. At the end of Phase I, researchers completed a pilot study with 54 students and three teachers. Results demonstrated that the hardware and software prototype operated as intended, teachers were able to integrate it within the classroom environment, and students were engaged while using the prototype. In Phase II, the team will add content modules and a gameplay narrative to the platform, build the automated feedback mechanism, strengthen the back-end management system, and build out the teacher reporting dashboard. After development is complete, the research team will conduct a larger pilot study to assess the feasibility and usability, fidelity of implementation, and the promise of the SuperChemVR for improving student learning in chemistry. The study will include 10 high school chemistry classrooms, half randomly assigned to use SuperChemVR and half to follow business-as-usual procedures. Researchers will compare pre-and-post scores of student's chemistry learning.
Product: SuperChemVR is a room-scale VR lab and learning game for high school chemistry students. While wearing a VR headset, students will be immersed in a simulated chemistry 3D-environment where they will be challenged to acquire basic lab and safety skills. Through actual, accurate measurement and experimentation, students will improve their understanding of chemistry practices as they learn using science to solve problems. VR will enhance students' chemistry experience by providing instant cleanup, access to infinite resources, and observations at exponentially larger and smaller scales while simulating accurate physical actions in a safe environment. In the game component of the intervention, students will participate in an outer-space adventure that takes place on a derelict spaceship requiring players to use chemistry to survive until they can be rescued. SuperChem VR will be used in the classroom by teachers as a demonstration tool, will provide implementation supports, and will provide teachers with reports on student performance.
Purpose: This project team will fully develop and test an open online platform that posts student-led engineering project challenges for Kindergarten to grade 12 classrooms. Research demonstrates that improved attitudes towards engineering in elementary and middle school are imperative to increase the pursuit of STEM degrees and careers. This project intends to address a shortage of tools and curricula in K-12 engineering today, in order to meet the learning objectives new the Next Generation Science Standards and to engage students in STEM.
Project Activities: During Phase I, (completed in 2016), the team developed a prototype, including a content management platform to host challenges on a broad range of STEM topics, such as computer coding, digital modeling, or producing simulations. At the end of Phase I, researchers completed a pilot study with 100 students and two teachers. Results demonstrated that the prototype operated as intended, that students were highly engaged with challenges on the platform, and that teachers were able to incorporate challenges within instructional practice. In Phase II, the team will refine the landing page, further develop the system architecture to accommodate a larger number of challenges, and upgrade the teacher portal to build capacity for the effective integration into instructional practice. After development is complete, the research team will conduct a pilot study to assess the feasibility and usability, fidelity of implementation, and promise of the platform to improve learning. The study will include 40 high school classrooms with a minimum of 25 students per class. Half of the classrooms will be randomly assigned to use the platform to conduct a challenge and half to follow business-as-usual procedures. Researchers will compare pre-and-post scores of students' science and engineering self-assessments, which measure ability to engage in science and engineering practices such as asking questions, modeling, planning and carrying out investigations, analyzing data, and constructing explanations, as well as content-specific measures depending on the specific challenge with which classes engage.
Product: The project team will develop a platform that will facilitate design challenges in K-12 classrooms across STEM academic topics and career paths within the field of engineering. The platform will enable classes to post their projects to the site and for other classes around the country to participate in the project. Each challenge (and the associated education resources curated for that challenge) will be publicly displayed on the Future Engineers platform and offered free for student participation and classroom facilitation. The content management system will be developed to enable the platform to host a high volume of challenges simultaneously and will allow for a diverse array of student-generated submissions. The platform will also include teacher resources to support the alignment of game play with learning goals and to support implementation.