Assessing scientific modeling competence (SMC) is challenging because of the multi-dimensionality of the construct and the potential variability of student performance across tasks. To deal with the challenges, this study applied Kane's validity framework to assess high-school students' SMC in Newtonian mechanics and examined how students'…

This article reports on a study investigating how computational essays can be used to help students in higher education STEM take up disciplinary epistemic agency--cognitive control and responsibility over one's own learning within the scientific disciplines. Computational essays are a genre of scientific writing that combine live, executable…

This study investigates the relationships between professional knowledge, self-concept, and interest of pre-service physics teachers. In order to support student learning and interest development alike, teachers need a profound professional knowledge and respective motivational orientations. Developing both professional knowledge and motivational…

We used a "knowledge in pieces" perspective on teacher learning to document undergraduates' pedagogical resources in a model-based physics course for potential teachers. We defined pedagogical resources as small, discrete ideas about teaching science that are applied appropriately or inappropriately in specific contexts. Neither…

Discusses a case study on discovery learning with a computer simulation environment in the physics domain of collisions. Finds that providing assignments with the simulation improves students' performance on one aspect of an intuitive-knowledge test. Contains 43 references. (Author/WRM)

To explain college students' (N=110) achievement in mechanics, a causal model consisting of three constructs (Newtonian physics, mathematics ability, and science experience) was proposed. Implications for physics instruction are discussed based on results indicating plausibility of the model. (Author/SK)

Duplicates an analysis conducted 20 years ago on physics enrollment in New York State in an attempt to verify the exploratory percentage enrollment in physics path analysis model using data gathered for the 1990-91 school year. Findings indicate that there has been no change in the set of variables related to physics enrollment. (Author/JRH)

Presents procedures, results, and conclusions of a study to see if psychological relations of association and similarity are consistent with a model to account for learned relations among concepts by college physics majors. The role of these relations in evaluating conceptual knowledge is dismissed. (DS)

The purpose of this study was to determine the best-fitting structural equation model between the freshmen's physics achievement and selected affective characteristics related to physics. These characteristics are students' situational interest in physics, personal interest in physics, aspiring extra activities related to physics, importance of…

This study aims at giving a systematic description of the cognitive activities involved in teaching physics. The most important conclusion from the results is that teaching by experienced university teachers can be described in terms of instruction processes belonging to the two-dimensional model described in this study. (PR)

Presents a study that took place in an inner-city neighborhood school populated mainly by African American students characterized by poverty. Explores the discourse and practices of students and three co-teachers as a curriculum was enacted to provide opportunities for students to learn about the physics of motion through designing, building, and…

Investigated a microcomputer-based system for the diagnosis and remediation of three Aristotelian alternative conceptions of force and motion held by eighth-grade physical science students. Reports that computer simulations exemplifying canonical conceptions facilitate alteration of students' naive conceptions to a significant degree. Suggests…

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…

A study (n=631) of children's ideas on motion of objects is reported. On three items of a four-part questionnaire, responses changed as the children matured, passing through distinct, successive stages with respect to their conceptual understanding. If teaching strategies to overcome misconceptions are to be effective, they must be appropriate to…

Presents a theory of learning in science based on students deriving conceptual linkages among multiple models which represent physical phenomena at different levels of abstraction. Finds that high school students who were exposed to derivational links among three models for basic electricity performed better when solving both qualitative and…