This study examines the effects of the pedagogical use of context-rich problems on motivation and learning, as compared to traditional problems, in mechanical physics courses at the college level. The results indicate that the treatment has appreciable outcomes on conceptual learning gain, on the perception of task value and on a perceived sense…

Simulation educational technologies provide a convenient way to augment classroom learning in higher education. The University of Colorado Boulder has created many Physics Education Technology (PhET) computer simulations relevant to concepts in Sciences and Mathematics. There is a notable gap in the literature of simulation-based technologies,…

This paper explores the integration of STEM activities in teaching and learning, emphasizing the importance of innovative pedagogical approaches in effectively introducing theoretical concepts, such as variables and functions, and merging them with practical applications. Drawing on existing literature, this study investigates the integration of…

The requirement for a method of capturing problem solving on a whiteboard for later replay stems from my teaching load, which includes two classes of first-year university general physics, each with relatively large class sizes of approximately 80-100 students. Most university-level teachers value one-to-one interaction with the students and find…

This article reports on a study that investigated students' metacognitive engagement in both out-of-school and classroom settings, as they participated in an amusement park physics program. Students from two schools that participated in the program worked in groups to collectively solve novel physics problems that engaged their individual…

The teaching of science, especially at pre-college and teacher education levels has undergone tremendous transformation over the years: from teacher-centred transmission to student-centred approaches rooted in constructivism. Whereas constructivism has been charged with all manner of shortfalls, it still can be of benefit to the way physics…

Uses digraphing as methodology to synthesize students' conceptions of natural phenomena in order to identify the structural characteristics of their conceptions. Contains 41 references. (DDR)

Investigates variations in students' responses to lever problems across multiple assessment contexts and formats. Data sources include students' semantic maps, written responses to questions, and modeled solutions to practical problems. Contains 40 references. (DDR)

This study examined the writing strategies and text characteristics associated with discovering a scientific principle by writing about an experiment. Sixty-four university students (non-science majors) carried out a physics experiment concerning either buoyancy, or the forces acting on a balance scale, then wrote an informal journal-style note…

A study with nine physics students in a Quebec university found they saw themselves learning primarily outside the classroom as they solved assigned problems, saw few new concepts being introduced, and felt they had moved beyond memorization to application of concepts to problem solving. Students' perceptions were sometimes at odds with teachers'…

This document describes a programs designed to help students attain the scientific awareness needed to function as effective members of society. The Senior High Science Programs (Alberta, Canada) will focus on students learning the big interconnecting ideas and principles of science; place an increased emphasis on developing methods of inquiry…

An integrated program is presented that focuses on helping students understand the scientific principles behind the natural events they experience and the technologies they use daily in their lives. Students' abilities are developed to ask questions, investigate and experiment, gather, analyze and assess scientific laws and principles and their…