The epistemic components of science are included in instruction through the three-dimensional learning of the Next Generation Science Standards (NGSS). Students use the Science & Engineering Practices to engage the Disciplinary Core Ideas through the perspective of the Crosscutting Concepts. The NGSS focus on the epistemic aspects that all…

The 2019 "Minnesota Academic Standards in Science (Standards)" set the expectations for achievement in science for grades K-12 students in Minnesota. The standards are grounded in the belief that all students can and should be scientifically literate. Graduates should be prepared for career and college opportunities. The…

The 2019 "Minnesota Academic Standards in Science" (Standards) set the expectations for achievement in science for grades K-12 students in Minnesota. The standards are grounded in the belief that all students can and should be scientifically literate. The "Standards" describe a connected body of science and engineering…

The Next Generation Science Standards (NGSS) emphasize how human activities affect the Earth and how Earth processes impact humans, placing the concept of sustainability within the Earth and Space Sciences. We ask: how prepared are future teachers to address sustainability and systems thinking as encoded in the NGSS? And how can geoscientists…

Despite significant pressure to reform science teaching and learning in K12 schools, and a concurrent call to reform undergraduate courses, higher education science content courses have remained relatively static. Higher education science faculty have few opportunities to explore research on how people learn, examine state or national science…

"A Framework for K-12 Science Education: Practices, Crosscutting Concepts, and Core Ideas" emphasizes that the practice of science is inherently a model-building activity focused on constructing explanations using evidence and reasoning (NRC 2012). Because building and refining is an iterative process, middle school students may view this practice…

Provides a conceptual framework on which to build a multidisciplinary approach to environmental education. (See related document SE 520 333.) (CP)

Traces the growth of earth science education, and in particular geology, in English schools from the early 1800s to date. (SL)

National concerns about the quality and effectiveness of science teaching have resulted in several efforts directed at restructuring the United States' science curriculum. This digest discusses recent initiatives of the Earth Systems Education. Topics discussed include: (1) efforts to understand the planet Earth; (2) the Program for Leadership in…

Argues that in future revisions of the National Curriculum for Science the 'big ideas' of science should be presented as a series of 'explanatory stories' that encapsulate the ideas so that they are understandable by both teachers and pupils and can be used as a framework for teaching. Offers an 'explanatory Earth story' based on this model.…

Discusses the benefits of research partnerships between scientists and K-16 students. Regards the partnerships as effective vehicles for teaching scientific logic, processes, and content by integrating inquiry-based educational approaches with innovative research questions. Reviews integrated research and education through geoscience partnerships.…

The National Association of Geology Teachers (NAGT) conducted an assessment of the implications of current studies encompassing the theories of continental drift, polar wandering, sea-floor spreading, and plate tectonics to K-12 education, and presented in this document recommendations for the incorporation of these concepts into school curricula.…

An introduction to Earth systems education describes a need and framework for an earth-systems focus in precollege curriculum. Challenges teachers to include this focus in science curriculum by following the guidelines presented in the Earth systems approach to science education. (five references) (MCO)

The need to educate people about the sky as both a psychological and physical environment is discussed, including a formal curriculum schema (sky as habitat, sky as transport, influence on culture) and informal curriculum, with such topics as recreation, pollution, mythology, and clouds. (DC)

The Learning in Science Project has adopted the view that science teaching might be improved if teachers can be given some appreciation of students' views of the world and the beliefs, expectations, and language that learners bring to new learning situations. This investigation compares and contrasts views that children and scientists have on…