We face complex global issues such as climate change that challenge our ability as humans to manage them. Models have been used as a pivotal science and engineering tool to investigate, represent, explain, and predict phenomena or solve problems that involve multi-faceted systems across many fields. To fully explain complex phenomena or solve…

The field of biology is becoming increasingly fragmented, and this fragmentation spills over into the ways our students think and learn about biology. Biology education policy documents stress the importance of teaching biology in an integrated manner and call for the biology education research community to establish a unifying paradigm for the…

Through Target 4.7 of SDG4 on 'quality education', Agenda 2030 invites governments to take ownership of progress towards ensuring 'Education for Sustainable Development' (ESD) becomes embedded into all levels of education. However, conceptual analysis suggests an ongoing blindspot related to the significance of systems literacy in fostering the…

Business schools have a responsibility for educating global citizens capable of understanding and addressing the major societal challenges of the 21st century. However, working on complex societal problems within business school curricula remains a challenge. This teaching brief presents a learning project that helps instructors introduce…

Nearly a decade ago, the "Framework for K-12 Science Education" argued for the need to intertwine science and engineering practices, disciplinary core ideas, and crosscutting concepts in performance expectations. However, there are few empirical examples for how intertwining three dimensions facilitates learning. In this study, we used a…

The objectives of this research were to study the development of a curriculum for enhancing grade 9 students' cognitive skills using a curriculum based on Systems Thinking Process. There were 3 phases: 1) studying of the problem; 2) development of tentative curriculum; and 3) implementation of the curriculum in a pilot study. The samples were 32…

The dynamic systems theory, a theory that goes beyond Piaget and Vygotsky, looks promising for curriculum development. In this theory it is explained how a curriculum that creates physical and psychological space for play and initiative learning (self-regulation) is being designed and how the teacher can support the enrichment of play and…

An important objective of science and technology education is the development of pupils' capacity for systems thinking. While in science education the term system relates mainly to structures and phenomena in the natural world, technology education focuses on systems designed to fulfill people's needs and desires: examples include systems to…

An approach to teaching geography and social studies in elementary schools that is based on integrating theories of learning into the classroom experience is presented. Specifically, the approach described utilizes essential thinking skills and Bloom's Taxonomy of Cognition in a question-asking framework to be used with literary selections.…

This book explores how three ideas, results-driven education, systems thinking, and constructivism, are shaping a new direction in staff development in schools. Results-driven education judges the success of schooling by what students actually know and what they can do as a result of their time in school. Systems thinking is a framework for seeing…

This paper describes the rationale, direction, and progress of the Integrated System for Workforce Education Curricula (ISWEC), a project sponsored by a 25-state consortium that is designed to accomplish two primary objectives: (1) integration of academic and vocational education in a curriculum framework for grades 9-14 and (2) development of a…