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A design study was conducted to test a machine learning (ML)-enabled automated feedback system developed to support students’ revision of scientific arguments using data from published sources and simulations. This paper focuses on three simulation-based scientific argumentation tasks called Trap, Aquifer, and Supply. These tasks were part of an online science curriculum module addressing groundwater systems for secondary school students.
This paper focuses on three simulation-based scientific argumentation tasks called Trap, Aquifer, and Supply. These tasks were part of an online science curriculum module addressing groundwater systems for secondary school students.
The development of inclusive STEM high schools that have no academic admission requirements has been a national goal in the United States. However, there is no umbrella organization that gives guidance for structuring such schools. The purpose of this study was to develop and validate a self‐assessment using critical components of successful inclusive STEM high schools for school personnel and educational researchers who wish to better understand their STEM programs and identify areas of strength. A multi‐phase methodology was employed.
The purpose of this study was to develop and validate a self‐assessment using critical components of successful inclusive STEM high schools for school personnel and educational researchers who wish to better understand their STEM programs and identify areas of strength.
This research investigates a design and development approach to improving science teachers’ access to effective professional development (PD) in a fully online, asynchronous environment. Working with a small number of teachers, this study explores how a design combining social capital mechanisms with essential teacher learning and PD characteristics supported teachers’ abilities to participate in the online course and collaboratively build knowledge.
This study explores how a design combining social capital mechanisms with essential teacher learning and PD characteristics supported teachers’ abilities to participate in the online course and collaboratively build knowledge.
Sandoval, W. A., Kawasaki, J., & Clark, H. F. (2020). Characterizing science classroom discourse across scales. Research in Science Education.
This Research in Science Education article focuses on characterizing classroom discourse in science.
There is international and widespread recognition that early childhood education must be fully inclusive and based on the language, culture, and epistemology of local Indigenous communities (Kitson, 2010). Early childhood education (ECE) programs can only deliver on the promises ofculturally responsive schooling (Castagno & Brayboy, 2008; McCarty & Lee, 2014) when “staff members understand cultural expectations, relationships, and the subtleties of communication, including non-verbalcommunication” within the community (Kitson & Bowes, 2010, p.86).
This article describes one effort to strengthen early childhood teaching in schools on the Navajo Nation that centers the work of two teachers within a program attempting to support teachers in the development of academically rigorous, culturally responsive curriculum across the Navajo Nation.
Butcher, K. R., Runburg-Larson, M., & Lane, M. (2019). Making critical thinking visible for student analysis and reflection: Using structured documentation to enhance effective reasoning and communication. Science Scope, 42(8), 44-53.
This Science Scope article discusses how to foster critical-thinking skills in middle school science.
Esposito, R. M. M, Harris, C., Berkowitz, A. R., & Pregnal, M. (2019). The joys of teaching ecology in K-12 and informal settings. Frontiers in Ecology and the Environment, 17(9), 538-539. https://doi.org/10.1002/fee.2122
This article describes opportunities for primary and secondary ecology education in formal and informal settings.
At its November 2018 meeting, the Ecological Society of America's Governing Board made the important decision to endorse the 4‐Dimensional Ecology Education (4DEE) framework. Developed over the past 3 years by a task force of ESA members who solicited input from a variety of groups, the framework takes a fresh and innovative approach toward the teaching of ecology.
This article describes the 4‐Dimensional Ecology Education (4DEE) framework. Developed by a task force of ESA members who solicited input from a variety of groups, the framework takes a fresh and innovative approach toward the teaching of ecology.
This study explores the pathways to K–12 Science, Technology, Engineering and Mathematics instruction among Black/African American males in the Discovery Research Education for African American Men in STEM to Teach (DREAMS to Teach) program at Morehouse College, a Historically Black College and University located in Southwest Atlanta, Georgia. Many studies articulate the importance of cultural alignment between students and their instructors’ influence on STEM participation and persistence.
This study explores the pathways to K–12 Science, Technology, Engineering and Mathematics instruction among Black/African American males in the Discovery Research Education for African American Men in STEM to Teach (DREAMS to Teach) program at Morehouse College
