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Abstract Students lose interest in science as they progress from elementary to high school. There is a need for authentic, place‐based science learning experiences that can increase students' interest in science. Scientists have unique skillsets that can complement the work of educators to create exciting experiences that are grounded in pedagogy and science practices. As scientists and educators, we co‐developed a lesson plan for high school students on the Eastern Shore of Virginia, a historically underserved coastal area, that demonstrated realistic scientific practices in students' local estuaries. After implementation of the lesson plan, we observed that students had a deeper understanding of ecosystem processes compared to their peers who had not been involved, were enthusiastic about sharing their experiences, and had a more well‐rounded ability to think like a scientist than before the lesson plan. We share our experiences and five best practices that can serve as a framework for scientists and educators who are motivated to do similar work. Through collaboration, scientists and educators have the potential to bolster student science identities and increase student participation in future scientific endeavors.
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Effects of the engagement in authentic water and sanitation research on Ghanaian high school students and teachers
This symposium reports on a study done in Ghana to understand how participation in authentic water and sanitation research affects students’ learning of science practices, their attitudes toward science, their interest in science-related careers, and their identities as scientists. It also sought effective ways to scaffold science teachers’ engagement of their students in authentic science activities. It was found students increased their knowledge of science and their ability to engage in science practices; they increased their interest in STEM-related careers; and they took on identities as scientists. Teachers gained new content and pedagogical methods to incorporate in their teaching.
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- Award ID(s):
- 1827132
- PAR ID:
- 10388627
- Date Published:
- Journal Name:
- Florida Educational Research Association 66th Annual Meeting
- Format(s):
- Medium: X
- Sponsoring Org:
- National Science Foundation
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This qualitative study chronicles one of the fundamental pillars of the Curriculum and Community Enterprise for Restoration Science (CCERS). The professional development is focused on curricula that are grounded in the community-based environmental restoration of the waterways of New York Harbor. Centered on the restoration of the native oyster population, hundreds of New York City public school teachers take part in this experience with the intent of increasing their own place-based pedagogical content knowledge and skills. Most of the participants teach in school with populations that are underrepresented in post-secondary STEM majors and STEM related careers. Professional learning activities for teachers and community scientists were offered throughout the 2021 calendar year. Professional Learning Activity Surveys were administered and teachers responded to questions about how they participated in CCERS events, the ways in which CCERS participation has impacted their teaching practice, whether they use CCERS activities for student research, and ways CCERS participation impacts student STEM career interest. An intended outcome is to instill a STEM identity in students identifying as URM and to bring STEM career awareness to these students. More than 72% of the teachers in the professional development sessions agreed that the professional learning activities were effective in providing new STEM content knowledge and best practices for teaching. The majority also reported that the sessions enabled them to increase their students’ engagement with STEM and interest in STEM careers.more » « less
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Abstract: The lack of readily available sources of potable water is major problem in many parts of the world. This project engaged high school (HS) students in authentic and meaningful science and engineering activities to teach them about the lack and poor quality of potable water in many regions and how they can be addressed through the use of point of use (POU) treatments, such as biosand filters (BSFs). The HS students’ activities paralleled those of USF students, including research question development and BSF design, construction, operation, and monitoring. An ethnographic approach was utilized by incorporating participant observation, collection and review of artifacts, and interviews. It was found that the project’s focus on the need to provide potable water in the developing world provided authenticity and meaningfulness to the HS students, which encouraged their participation in activities and the learning of science and engineering practices. The HS students reported an awareness of the differences between this project and their regular science classes. The project had a positive impact on their perceptions of themselves as scientists and their interest in STEM careers. The HS students’ results were useful to the university-based research. In addition, the USF students gained teaching experience while investigating research questions in a low-stakes environment.more » « less
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Abstract Reformed science curricula provide opportunities for students to engage with authentic science practices. However, teacher implementation of such curricula requires teachers to consider their role in the classroom, including realigning instructional decisions with the epistemic aims of science. Guiding newcomers in science can take place in settings ranging from the classroom to the undergraduate research laboratory. We suggest thinking about the potential intersections of guiding students across these contexts is important. We describe the Classroom‐Research‐Mentoring (CRM) Framework as a novel lens for examining science practice‐based instruction. We present a comparative case study of two teachers as they instruct undergraduate students in a model‐based inquiry laboratory. We analyzed stimulated‐recall episodes uncovering how these teachers interacted with their students and the rationale behind their instructional choices. Through the application of the CRM Framework, we revealed ways teachers can have instructional goals that align with those of a research mentor. For example, our teachers had the goals of “creating an inclusive environment open to student ideas,” “acknowledging students as scientists,” and “focusing students on skills and ideas needed to solve biological problems.” We suggest three functions of research mentoring that translate across the classroom and research laboratory settings: (1) build a shared understanding of epistemic aims, (2) support learners in the productive use of science practices, and (3) motivate learner engagement in science practices.more » « less
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