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Our research study examines the community-based partnership PD model and its impact on school teachers’ self-efficacy and their success in engaging students in the NGSS science practices through citizen science projects.
This Citizen Science Guide provides specific guidance on identifying relevant citizen science projects that fits an educators' curricular and instructional needs.
This Citizen Science Guide provides specific guidance on identifying relevant citizen science projects that fits an educators' curricular and instructional needs.
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Schoolyard SITES Curriculum Workbook includes a narrative description of the SITES professional development program and the Project Planning Guide.
Online plotter for historical data and student data collected using the Emery Method for beach profiling.
Online plotter for historical data and student data collected using the Emery Method for beach profiling.
Collaboration between ecologists and learning scientists can give rise to powerful models for scientific outreach within ecology. This paper presents a process by which learning scientists and ecologists codesigned a science curriculum that invites students to join an ecological community of practice. In the Journey to El Yunque middle school science curriculum, students engage with simulation models generated from data gathered by Luquillo Long Term Ecological Research (LUQ LTER) scientists.
Collaboration between ecologists and learning scientists can give rise to powerful models for scientific outreach within ecology. This paper presents a process by which learning scientists and ecologists codesigned a science curriculum that invites students to join an ecological community of practice.
Engineering design systematically identifies needs, wants, and problems and then devises solutions to address them. A central component of our work is guiding students in the engineered design of solutions to local environmental problems.
Songer, N. B. (2023). Why is engineering design important for all learners?. Open Access Government April 2023, pp.300-301. https://doi.org/10.56367/OAG-038-10193
Engineering design systematically identifies needs, wants, and problems and then devises solutions to address them. A central component of our work is guiding students in the engineered design of solutions to local environmental problems.
Puttick, G., Drayton, B., & Gasca, S. (2023). Open innovation challenge to mitigate global warming. Connected Science Learning, 5(5).
Open innovation challenge to mitigate global warming.
The Innovate to Mitigate (I2M) project poses challenges for secondary-school students to design feasible, innovative strategies that mitigate CO2 emissions and thus global warming. Design is informed by research on problem-based learning, pedagogy for which poses demands on teachers. This paper presents preliminary evidence about how I2M teachers supported student teams to engage in science and engineering practices.
The Innovate to Mitigate (I2M) project poses challenges for secondary-school students to design feasible, innovative strategies that mitigate CO2 emissions and thus global warming. Design is informed by research on problem-based learning, pedagogy for which poses demands on teachers. This paper presents preliminary evidence about how I2M teachers supported student teams to engage in science and engineering practices.
The Innovate to Mitigate (I2M) project poses challenges for secondary-school students to design feasible, innovative strategies that mitigate CO2 emissions and thus global warming. Design is informed by research on problem-based learning, pedagogy for which poses demands on teachers. This paper presents preliminary evidence about how I2M teachers supported student teams to engage in science and engineering practices.
The Innovate to Mitigate (I2M) project poses challenges for secondary-school students to design feasible, innovative strategies that mitigate CO2 emissions and thus global warming. Design is informed by research on problem-based learning, pedagogy for which poses demands on teachers. This paper presents preliminary evidence about how I2M teachers supported student teams to engage in science and engineering practices.
Foregrounding climate education in formal science learning environments provides students with opportunities to develop critical climate-related knowledge and skills. However, research has shown many challenges to teaching and learning about Earth’s climate and global climate change (GCC). This longitudinal study aims to establish how secondary science teachers, over time, implement model-based climate curricula in support of students’ climate and GCC education by utilizing EzGCM. The model (EzGCM) is a data-driven, computer-based climate modeling tool use to explore global climate data.
Foregrounding climate education in formal science learning environments provides students with opportunities to develop critical climate-related knowledge and skills. However, research has shown many challenges to teaching and learning about Earth’s climate and global climate change (GCC). This longitudinal study aims to establish how secondary science teachers, over time, implement model-based climate curricula in support of students’ climate and GCC education by utilizing EzGCM. The model (EzGCM) is a data-driven, computer-based climate modeling tool use to explore global climate data.
