Part 1 of the series looked at teaching speed and velocity. Part 2 considers the teaching of acceleration in physics. Teachers may find it okay to hurry through the concepts of speed and velocity because they are intuitive. But teachers cannot hurry through acceleration quite so quickly because it is not intuitive. Whereas velocity is a rate of…

Some introductory physics courses begin where student interest is thought to be highest--in waves, sound, and light--before speed, velocity, and acceleration. For students with math difficulties, this order makes sense. But most physics courses, including the author's own, begin with a study of motion. Why? Mostly due to tradition, he admits. When…

Educational researchers have long advocated for the integration of computer simulations (sims) in science courses, citing the positive effects these tools have on students' science conceptual comprehension (Develaki 2017; Hannafin, West, and Shepard 2009; Lamb et al. 2011). In fact, Liao (2007) investigated the learning differences between…

When teaching how "tension" and "compression" relate to geometrical structures such as bridges, arches, and domes, The author shows a picture of the Notre Dame Cathedral in Paris, completed in the 14th century, and presents a lesson on using the curve called a catenary to explain how he teaches about tension and compression…

Gaming is becoming an effective form of learning and assessment and shouldn't be overlooked in an increasingly technological world. The games described in this article ("Impulse," "Quantum Spectre," and "Ravenous"), entertaining enough to be played by the general public, are also appropriate and useful in a classroom…

Science teachers are often content to leave creativity to the arts and humanities classes. Fostering creativity in science, if attempted at all, is a challenge often relegated to the gifted classroom. But not just the privileged few have the capacity to be creative. Simply restructuring existing lessons can help promote creativity in all science…

A "Framework for K-12 Science Education" identified eight practices as "essential elements of the K-12 science and engineering curriculum" (NRC 2012, p. 49). Most of the practices, such as Developing and Using Models, Planning and Carrying Out Investigations, and Analyzing and Interpreting Data, are well known among science…

As a high school physics teacher, Kim Geddes is constantly searching for new experiences to challenge, motivate, and engage students. Last year, she incorporated ExploraVision into the energy unit of her school's physics curriculum with the help of their media specialist (Elease Franchini). ExploraVision is a competition offered through a…

Surveys texts used, enrollment trends, percent of time spent on student chosen topics, grades earned by students, factors involved in determining student grades, opinions of commercial tests, and percent of time spent on various class activities. (DS)

Identifies associations, programs, and resource materials which provide assistance to physics teachers. Explains the opportunities sponsored through the American Association of Physics Teachers (AAPT) and cites examples of workshops, institutes, and kits that were designed to improve physics instruction. (ML)

One of the more effective ways to convey the story of our origin and evolution is to present the entire chronicle in a multimedia format that allows today's tech-savvy students to browse at will, thereby extracting parts of the story at their own pace and comfort. This article describes an interactive CD-ROM (included in this issue of "The Science…

Reviews a National Science Foundation funded workshop ("Investigations in the Natural Sciences") for science teachers on how to use laboratory centered materials developed by the Science Education Center at the University of Oklahoma. Presents the results of a survey of the participants. Highlights the program's strengths. (CW)

Described is a study to determine the long-range impact of the Pennsylvania Nuclear Science Prolect. Findings include that fewer than one-half participants are still teaching the pilot program, that school/teachers who "dropped out" averaged three years from initial involvement, and that student interest and scheduling problems are two…