The Gatsby "Good Practical Science" report (Gatsby, 2017) identified opportunities to carry out open-ended investigative projects as one of ten benchmarks for good practical science. However, there is currently no requirement for post-16 students in England to have access to such opportunities as this is not required by A-level…

By the 1970s a fundamental shift had taken place in German science education. This was a shift away from the learning of more-or-less isolated facts and facets in Biology, Chemistry, and Physics towards a restructuring of science teaching along the general principles of the respective science domains. The changes included also the addition of…

About 20 years ago, a number of Yukon schools took a different approach to outdoor education and outdoor pursuits. During the 1970s and 1980s, most Yukon high schools and junior high schools offered a course called Outdoor Education. These courses fit into the conventional blocks in a school timetable. Outdoor activities longer than these blocks…

A novel application of the popular web instruction architecture Blackboard Academic Suite[R] is described. The method was applied to a large number of students to assess quantitatively the accuracy of each student's laboratory skills. The method provided immediate feedback to students on their personal skill level, replaced labour-intensive…

Presents results from empirical studies of physics learning for different age groups using a situated cognition perspective to construct detailed understandings of how individual learning processes unfold. Contains 35 references. (PVD)

Explains the fight or flight reaction and presents a hands-on activity for high school students. Uses crayfish behavior as an example. (Author/SOE)

Active learning modules offer secondary students the opportunity to participate in the excitement of invention before getting "turned off" by the heavy course loads required of majors in science and technology. Instead of slogging through controlled, predictable lab exercises, students can become active producers by working collaboratively on…

Argues that active learning is the way to engage students in learning biology. Discusses the use of constructivism in biology instruction, resistance to cooperative learning, creating constructivist-based activities, and grading cooperative activities. Contains 18 references. (DDR)

Idaho secondary students learn the scientific method through outdoor environmental projects related to water quality monitoring. A program trains teachers to design project-based learning and provides extensive followup support. Five-day summer workshops immerse teachers in the types of projects they will orchestrate with their own students.…

Describes the design and implementation of an activity to teach electrocommunication in animals using scientific inquiry and engineering design to pose questions, seek answers, and develop solutions in understanding electrocommunication in electric fish; develop explanations of natural phenomena as a creative process; and help understand that…

Argues that the life sciences offer potential for practical work to be undertaken outside the classroom. Explores a rationale for such work and draws on reported studies from a number of countries. Contains 44 references. (DDR)

This teacher package for grades 7-12 takes a broad approach in preparing students for earthquakes. "Hands-on/minds-on", inquiry-driven activities are balanced by library research and visits with disaster planning officials. Emphasis is placed on cooperative learning and the constructivist approach to teaching. Students not only study the…

Reviews the traditional definition of practical work in science, offers a different definition of it, and points out that practical work is not always laboratory based. Discusses the logistics of coordinating fieldwork. Contains 17 references. (DDR)

Presents an activity in which students create their own bumper stickers and cartoons to develop environmental awareness among other people. Uses the 5E instructional approach which includes engagement, exploration, explanation, extension, and evaluation. (YDS)

Presents a method for teaching aspects of mechanics using juggling. This approach requires an understanding of the three ball juggling pattern. Recommends teacher-guided deconstruction of the ball motion and discusses acceleration, force, gravity, impulse, and momentum. (DDR)