There is a general consensus that design-based research (DBR) is a genre of approaches in education research to design interventions for specific problems with the aim to gain an understanding of how they work in the problem context. While there is a considerable body of literature discussing the epistemic and methodological aspects of DBR, we…

Problem solving in groups can be rich with tension for students. This tension may arise from conflicting approaches (conceptual and/or epistemological) and/or from conflict emerging in the social relations among group members. Drawing on video records of undergraduate students working collaboratively, we use three cases to illustrate the…

The Maker Movement has taken the educational field by storm due to its perceived potential as a driver of creativity, excitement, and innovation (Honey & Kanter, [Honey, M., 2013]; Martinez & Stager, [Martin, L., 2013]). Making is promoted as advancing entrepreneurship, developing science, technology, engineering, and mathematics (STEM)…

Describes the sociocultural theory motivating strategy "transformative communication" as well as a specific dialogue sequence that can be used as a cultural tool for accompanying such interaction. Illustrates the utility of the dialogue sequence in four key episodes within and inquiry-based high school earth science class. (Author/SAH)

Describes the nature and existence of both model-data fit and conceptual problems in science, then examines two curricular projects--one in genetics and one in evolutionary biology--that attempt to integrate these problems into classroom instruction. (Author/SAH)

Discusses a generalized approach to societal problems, consisting of a series of questions that can be asked as problems are investigated. Questions focus on nature of problem situation, what problems are, situational/historical contexts of problems, possible solutions, consequences of solutions, ways of testing proposed solutions, and what…

Examines the utility of the ancient Chinese concept of Tai-chi as a model for interpreting complex contemporary issues in science education. Describes the model and suggests how it can be useful in understanding scientific phenomena and in guiding instruction. (ML)

Discussed are two contrasting views about the nature of scientific thinking including Pearson's and Collingwood's. The contexts of questions, methods, problems, experiments, and history are described as contexts of inquiry. The physical thoughts of scientists from pre-Aristotelian times to the present are outlined in relation to contexts of…

Examined relation between college students' (N=108) ability to solve simple ratio tasks (for example, their proportional reasoning patterns) and their rule-governed behavior with the balance beam. Also identified modifications in a set of rules for the balance beam tasks. Results and implications for science instruction are discussed. (JN)

Discusses areas related to teaching science-related, value-laden, real-world problems. These include potential/limitations of science and scientific method, how science-based information fits in with other kinds of information, how preconceptions about problems/issues affect scientific problem solving, and utilization of different educational…

Presents a model for solving genetics problems when problem statements include information on which alleles are dominant/recessive and on what forms of a trait are coded for by the alleles. Includes procedural steps employed in a solution and conceptual knowledge of genetics/meiosis allowing students to justify what they have done. (Author/JN)

Describes an intelligent tutoring system named MENDEL, including problem GENERATOR, TUTOR, student MODELER, ADVISOR, hypothesis CHECKER, and problem SOLVER. This software may be used by high school or university biology students as a tool for learning concepts and problem-solving strategies in transmission genetics. (YP)

Examines various types of problems that researchers have used to demonstrate problem solving. Focuses on genetics problems. Discusses classes of learning outcomes, conceptual knowledge gains, content-independent heuristics, content-specific procedures, understanding the nature of science and a typology of genetics problems. (CW)

Explains cognitive basis for change in science paradigms using Watson-Crick DNA model to illustrate concepts of "normal" versus "revolutionary" science. Examines these concepts in light of teacher preception of science, and discusses implications for the practice of science education. (JM)

Describes the development of a project-based unit on hot-air balloons used with Israeli junior high school students. Concludes that students in the program gained experience with high-level scientific principles and technological processes, the project allows for a learning environment of cooperation and teamwork, and collaboration between…