Providing scientific explanations for natural phenomena is a fundamental aim of science; therefore, scientific explanation has been selected as one of the key practices in science education policy documents around the world. To further elaborate on existing educational frameworks of scientific explanation in K-12, we propose a learning progression…

This study is designed to test a reciprocal causation, cross-lagged model of self-concept, self-efficacy, and achievement in a postsecondary STEM course. Both self-efficacy and self-concept are known to be related to achievement; however, there is a need to untangle the relationship between the two constructs as well as their association to…

Constituting a metacognitive strategy, system competence or systems thinking can only assume its assigned key function as a basic concept for the school subject of geography in Germany after a theoretical and empirical foundation has been established. A measurement instrument is required which is suitable both for supporting students and for the…

This paper builds on the current literature base about learning progressions in science to address the question, "What is the nature of the learning progression in the content domain of the structure of matter?" We introduce a learning progression in response to that question and illustrate a methodology, the Construct Modeling (Wilson,…

Carbon cycling is a key natural system that requires robust science literacy to understand how and why climate change is occurring. Studies show that students tend to compartmentalize carbon movement within plants and animals and are challenged to make sense of how carbon cycles on a global scale. Studies also show that students hold faulty models…

The paper focuses on problems science educators and researchers must face before the advantage of paradigms can be realized. Examples of the role of paradigms in physics research are presented. A critique of paradigm use in physics is presented. Future variations of paradigms for science education are discussed. (Author/RE)

Discusses a study which examined the last factor of Piaget's model of intelligence-functioning. Sought to determine if empirical evidence could be formed to support the existence of assimilation, disequilibrium, accommodation, and organization in the learning of physics. Naturalistic data provided support for the Piagetian functioning model of…

Advocates artificial neural networks as models for cognition and development. Provides an example of how such models work in the context of a well-known Piagetian developmental task and school science activity: balance beam problems. (Contains 59 references.) (Author/WRM)

This article is situated within a theoretical framework, "instructional congruence," articulating issues of student diversity with the demands of academic disciplines. In the context of a large-scale study targeting elementary school science, the article describes a research instrument that aims to combine the strengths of both quantitative and…

Criticizes weaknesses in the Gagne research model for checking the validity of learning hierarchies, and proposes a new model which is designed to overcome these weaknesses. (JR)

Hypothesized that instructional methods employing concrete models and exemplars of a concept will lead to better student understanding at both the concrete and formal operational levels of cognitive development. However, concrete operational students did not profit from the instructional methods and results were not clear for early formal…

Applies Kuhn's model of the structure of scientific revolutions, Popper's hypothetic-deductive model of science, and Lakatos' methodology of competing research programs to a historical biological episode. Suggests using Kuhn's model (emphasizing the nonrational basis of science) and Popper's model (emphasizing the rational basis of science) in…

Points out the fact that Piaget's objections to tests as ways of identifying cognitive structures and processes have been largely ignored in most of the replication studies conducted by English and American psychologists. (PEB)

Explores a way to analyze and describe learning derived from both constructivist theoretical considerations and classroom practice. Presents a model describing possible student responses during science lessons. Provides a rationale on the basis of both constructivist theory and tests of the model in middle school science classes. Contains 42…

Argues that affective learning is a poorly understood phenomenon and that objective-setting and evaluation for learning in the affective domain are often neglected in educational programs. Addresses the problem this creates for nonformal science-learning centers. Contains 38 references. (DDR)