It seems like there are new tech and social media tools coming out every day. So what’s out there? And how can these tools be used to enhance your work?
This article focuses on discussion and preliminary findings from classroom testing of the prototype learning module: Investigating Income Inequality in the U.S. In this module, students examine patterns of income inequality using person-level microdata from the American Community Survey (ACS) and the U.S. decennial census.
This article focuses on discussion and preliminary findings from classroom testing of the prototype learning module: Investigating Income Inequality in the U.S.
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.
Well-designed mathematics instruction focused on concepts and problem-solving skills associated with measurement and data analysis can build a foundational understanding for more advanced mathematics. This study investigated the efficacy of the Precision Mathematics Level 1 (PM-L1) intervention, a Tier 2 print- and technology-based mathematics intervention designed to increase first-grade students’ conceptual understanding and problem-solving skills around the areas of measurement and data analysis.
This study investigated the efficacy of the Precision Mathematics Level 1 (PM-L1) intervention, a Tier 2 print- and technology-based mathematics intervention designed to increase first-grade students’ conceptual understanding and problem-solving skills around the areas of measurement and data analysis.
Mathematics interventions aimed at accelerating the learning of students with mathematics difficulties (MD) should be developed through a design science approach such as the Curriculum Research Framework (CRF). Precision Mathematics is a National Science Foundation-funded DRK–12 Design and Development project focused on building mathematical proficiency with the critical concepts and problem-solving skills of early measurement and data analysis among first- and second-grade students with MD.
The production of the first-grade Precision Mathematics intervention was grounded in the Curriculum Research Framework (CRF), which involves a series of iterative cycles of development, implementation field-testing, analysis, and revision. Results from initial implementation studies suggest that teachers and students can feasibly implement the first-grade Precision Mathematics intervention in authentic education settings. Challenges faced in developing technology-based mathematics interventions are discussed.
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.
Researchers and developers of learning analytics (LA) systems are increasingly adopting human-centred design (HCD) approaches, with growing need to understand how to apply design practice in different educational settings. In this paper, we present a design narrative of our experience developing dashboards to support middle school mathematics teachers’ pedagogical practices, in a multi-university, multi-school district, improvement science initiative in the United States.
In this paper, authors present a design narrative of our experience developing dashboards to support middle school mathematics teachers’ pedagogical practices, in a multi-university, multi-school district, improvement science initiative in the United States.
The American Astronomical Society’s WorldWide Telescope (WWT) is a visual- ization program that enables a computer to function as a virtual telescope—bringing together archival imagery from the world’s best ground- and space-based telescopes for the exploration of the universe. It is a powerful resource for astronomy education.
This chapter describes curricula that use WorldWide Telescope in teaching key topics in Astro 101 and K–12 science, including parallax, Hubble’s Law and large-scale structure in the universe, seasons, Moon phases and eclipses, and life in the universe.
Play nine math learning apps and dozens of hands-on activities at home or in the classroom. A digital Teacher's Guide supports use in the classroom, and a digital Family Fun Guide provides activities to do at home.
Play nine math learning apps and dozens of hands-on activities at home or in the classroom. A digital Teacher's Guide supports use in the classroom, and a digital Family Fun Guide provides activities to do at home.
Explore six early science learning apps and dozens of hands-on activities. Use the digital Teacher's Guide to implement the technology-based science curriculum into preschool classrooms.
Explore six early science learning apps and dozens of hands-on activities. Use the digital Teacher's Guide to implement the technology-based science curriculum into preschool classrooms.
