This article showcases how a physics lab course was successfully redesigned to promote important reasoning abilities not explicitly addressed in the typical college setting. Student development of such abilities is essential for sound decision making, particularly when living in an information age. Essential features of our guiding curricular…

Many large-lecture introductory science courses for nonscience majors do not have a lab component and hence do not provide much opportunity for students to engage in the practice of science. I have developed a new instructional activity called Dorm Room Labs that enables students to conduct hands-on activities as homework (or dorm room work) to…

Clickers are often used as an active learning tool in face-to-face classes to enhance student engagement and assess student learning. In this article we share the variety of ways that we use clicker questions to promote deliberate practice in large science courses. Deliberate practice is the use of specifically structured exercises that develop…

This study measures the effects of increased faculty-student engagement on student learning, success rates, and perceptions in a Physical Oceanography course. The study separately implemented two teaching methods that had been shown to be successful in a different discipline, introductory physics. These methods were the use of interactive…

We used surveys and classroom observations to examine student reactions to two-stage exams, where students first do the exam individually and then redo it collaboratively. Our results show why both students and instructors appreciate this examination format: Two-stage collaborative examinations are relatively easy to implement, have a high…

The incorporation of scientific inquiry into college classrooms has steadily risen as faculty work to move away from exclusively didactic methods. One type of inquiry structure, the design task, produces a product rather than simply a conclusion. This offers students a context to apply their understanding of content in a tangible way that has…

Science teaching and learning can be made both engaging and student-centered using pedagogical, computer-based learning tools. We have developed self-paced interactive problem-solving tutorials for introductory physics. These tutorials can provide guidance and support for a variety of problem-solving techniques, as well as opportunities for…

The K-W-L method of teaching is a simple method that actively engages students in their own learning. It has been used with kindergarten and elementary grades to teach other subjects. The authors have successfully used it to teach physics at the college level. In their introductory physics labs, the K-W-L method helped students think about what…

In this project, introductory college physics students (noneducation majors) were asked to teach simple machines to a class of second graders. This nontraditional activity proved to be a successful way to encourage college students to think critically about physics and how it applied to their everyday lives. The noneducation majors benefited by…

At Colorado College, the energy retrofit of a building is used as a service-learning research project to teach physics and chemistry in a variety of courses. In introductory courses for nonscience majors, the project helps students appreciate the scientific method and quantitative reasoning. Within the physical-chemistry course, students see that…

College science teachers know that students get the most out of class if they have completed the assigned reading. To reinforce this expectation, we ask our introductory physics students to submit a question they had about the reading. In this paper we describe the rationale and logistics of this assignment. (Contains 2 tables and 2 figures.)

Given the success of self-efficacy theory for predicting student success in scientific study, and the demonstrated effect that teaching approaches have on student self-efficacy in majors courses, the purpose of this study is to ask if similar relationships between pedagogy and self-efficacy exist in introductory science courses for non-physical…

Describes how one could teach velocity and acceleration from a Piagetian framework. This approach is compared with the traditional method of teaching constantly accelerated motion to high school and college students. Some problems and a list of references are also presented. (HM)

Presents some general characteristics of "older" students and describes courses and instructional strategies in the physical sciences related to these characteristics. (SK)