Contextual features of assessments can influence the ideas students draw from and the ways they assemble knowledge. We used a mixed-methods approach to explore how surface-level item context impacts student reasoning. In study 1, we developed an isomorphic survey to capture student reasoning about fluid dynamics, a crosscutting phenomenon, in two…

Understanding and constructing domain-specific external representations, such as kinematic diagrams, is an important goal of engineering education. International standards (ISO 3952-1) prescribe their format in terms of graphical elements in black and white and two dimensions. However, during training, the canonical format is often modified under…

The present study investigated the association of students' fundamental ideas and misconceptions about ontological features of atom identity and behavior with the formation of their portrayed representations of the atomic structure. Participants (n = 421) were secondary education students in the eighth, tenth, and twelfth grades. Students'…

Resources theory assumes that resource activation is context sensitive, and that an important dimension of context is the question students are answering. The context sensitivity of resource activation has been demonstrated empirically by case studies that show students using different resources to answer questions that are similar in focus. In…

The effect of class size on student learning has numerous policy implications and has been a major subject of conversation and research for decades. Despite this, few studies have been done on class size in the context of university settings or physics courses. This dissertation helps address that gap in the literature by quantitatively analyzing…

The main purposes of this study were to identify Taiwanese university students' physics learning profiles in terms of their critical conceptions of learning physics and to compare their physics learning self-efficacy with the different learning profiles. A total of 250 Taiwanese undergraduates who were majoring in physics participated in this…

The impact of lecture instruction on student conceptual understanding in physics has been the subject of research for several decades. Most studies have reported disappointingly small improvements in student performance on conceptual questions despite direct instruction on the relevant topics. These results have spurred a number of attempts to…

Discusses data from tests and videotaped interviews indicating conceptual primitives as a source of student difficulty in physics. These include key concepts (mass, acceleration) and fundamental principles/models (Newton's and conservation laws, atomic model). Demonstrates that misconceptions can be studied using problems of minimum complexity to…

Eight alternative frameworks of students' conceptions of gravity are discussed. Data supporting these frameworks were obtained during 40-minute interviews dealing with force. (SK)

Results of considering the "at rest" condition of an object with two high school physics classes suggest three instructional factors which apparently aid in the development of students' concepts of force. Includes implications for teaching and an example of a technique fostering concept development. (Author/JN)

The study of conceptual change traces its heritage to the notions of paradigm (networks of shared beliefs, concepts, practices) and paradigm shift made famous by Thomas Kuhn in his book, "The Structure of Scientific Revolutions". Kuhn's work was quickly linked to developmental psychology (how knowledge develops) and to science education (teaching…

This study is an attempt to discover the relation of classification and seriation, two areas of intellectual development investigated by Piaget. A number of test items, modified from Piaget's description, were administered individually to 29 boys and 21 girls in third-grade classes. A set of 11 lessons involving tape recordings, technique films,…

Assessed Nussbaum's developmental model (SE 024 045) using a new sample given no special instructions in spherical earth/gravity concepts. Also identified distribution of notions among students (N=159 in grades three to eight), compared distribution of notions at each age level with those in other studies, and explored role of individual…

The ENKA Project is concerned with two major problem areas: the conceptions of physical and chemical phenomena, central to an upper level course, held by compulsory school pupils (grades 7-9) and the implications from descriptions of pupils' conceptions and ways of reasoning for current teaching practice. To determine conceptions held, pupils were…