Increasingly, the physics community is attending to issues of equity, diversity, and inclusion (EDI), both in language and action. We are more publicly recognizing our individual responsibilities as physicists to address social injustice and systemic oppression. To this end, our physics classrooms are key levers for action. While we have made…

A significant challenge physics faculty face teaching introductory labs is engaging students in authentic science practices. Another has been highlighted given the current global pandemic--how to engage students in our laboratory courses while maintaining appropriate social distancing and hygiene standards. We have chosen to answer these…

During the course of international curriculum reform, decision making about socioscientific issues (SSI)--open-ended controversial issues with connections to science, technology, and society--has been labeled a critical tool for achieving scientific literacy. Therefore, enhancing students' socioscientific decision making as part of science…

Learning in the classroom is highly influenced by the experiences a teacher plans for students. Concerned that students were not achieving adequate conceptual knowledge during traditional undergraduate physics courses, the authors used the Making Sense of SCIENCE curriculum to tailor a course for 21 pre-service elementary teachers at the…

The need to integrate computation into the physics curriculum has long been established: using simulations and computational modeling can enhance students' conceptual understanding, and the computational skills students acquire are both useful and necessary in their careers. However, making changes to an established physics course is a challenge…

For the past two years, the Foundations in Physics and Mathematics (FPM) summer program has been held at Indiana University in order to fulfill two goals: provide additional physics and mathematics instruction at the high school level, and provide physics graduate students with experience and autonomy in designing curricula and teaching courses.…

The idea of teaching physics to ninth-graders, known as "Physics First," has become more and more popular among physics educators in this country. However, introducing ninth-grade physics has been an uphill battle; such a change has a major impact on the students, parents, teachers, and the school administration. Switching to Physics First affects…

Discusses a high school physics course in which physics is developed from something students have seen or experienced rather than starting with physics and applying it to a topic. Instructions for obtaining a sample unit and course outline are provided. (Author/JN)

Explains the "Overview-Case Study Method" for teaching high school physics which has evolved from the author's experience/success with a program in which 90 percent of the high school's students take physics as an elective. Areas considered include methods, case studies, textbooks, multilevel physics, qualitative physics, and real-life…

Suggests criteria for constructing a "basic" physics program based on such premises as limited class time, time and practice needed for skill development/understanding structuring of subject matter, and choices of content and approach. Long-range objectives related to the list of premises are discussed. (SK)

Reports results of a 1983 national survey which determined the time devoted to teaching major physics content areas; subtopics in each area; equipment students saw and used; principle textbook used; and school/physics enrollments. Indicates that the data obtained can be used to establish guidelines in developing the Physics Achievement Test. (JN)

Describes the development of a two-week National Science Foundation (NSF)-funded course at the Virginia Military Institute to promote the lecture demonstration technique. (SK)