Fostering Systems Thinking in High School Environmental Engineering through Engagement of Coastal Communities
University Of California-Irvine, Irvine CA
Investigators
Abstract
This project is an innovative exploratory research study focused on developing a high school environmental engineering curriculum that addresses local environmental challenges. The curriculum follows a model-validate-iterate design paradigm, where students model dynamic real-world systems, validate their models using data, and create multiple iterations to explore changes in the system over time. The project aims to cultivate a new generation of environmental engineers who possess the necessary skills to analyze complex systems and develop creative solutions. By integrating systems thinking and engineering solutions, the curriculum will bridge the gap between classroom learning and real-world applications. Through collaborative efforts with students, teachers, and other partners, the project will create an engaging and participatory STEM learning experience. The outcomes of this project will contribute to the national interest by preparing students for environmental engineering careers. Using a design-based implementation research approach, the interdisciplinary research team--including the University of California-Irvine's Schools of Education, Engineering, and Biological Sciences--will partner with informal science educators from the Orange County Department of Education, teachers and students from local school districts, and other stakeholders to co-design the curriculum. The project will investigate water resource management and flooding concerns along the Santa Ana River in Orange County, CA. The curriculum will be tested with three classes (approximately 100 students) of students living in cities located by the river. Research questions will explore the design process and learning process and related student outcomes: 1. How can an environmental engineering curriculum and learning activities be designed to integrate a focus on system thinking and engineering solutions in a way that is impactful? How do different stakeholders (i.e., researchers; informal science educators; high-school students; local residents) participate and contribute their perspectives and expertise to the design process? 2. How do participating students engage in co-designed learning activities? To what extent do they develop system thinking and engineering skills? The project will be structured in three phases: participatory co-design in Year 1, curriculum testing in Year 2, and data analysis in Year 3. Data sources will include interviews with stakeholders, recordings of design sessions, fieldnotes, and design artifacts, pre/post engineering system thinking measures, lesson recordings and interviews with a sub-sample of students and a student feedback survey. A mixed-method approach will be employed to analyze the design process to examine students' learning processes. Regression analysis will be employed to examine student learning outcomes. Findings will be disseminated through publications in peer-reviewed scholarly journals and practitioner-oriented conferences. Participating high-school students will be invited to present and share with peer networks. The curriculum will be made available to teachers and informal educators for free through the project website. This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
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