While biomedical and life science research have embraced interdisciplinarity as the means to solving pressing 21st century complex challenges, interdisciplinarity in undergraduate education has been more difficult to implement. As a consequence, disciplinary rather than interdisciplinary capstones have become ubiquitous. Disciplinary capstones are…

Transforming the chemistry curriculum to an interdisciplinary perspective is essential for preparing students to meet interdisciplinary career demands and to brace themselves for the challenges of complex environmental and health issues. The study introduces four interdisciplinary electrochemistry STEM-lab activities as an alternative to the…

Contribution: This study identifies the types of interaction that contribute to student learning with student-led tutorials (SLTs). The quality of these interactions include peer discussion, student tutor presentation, joint reasoning, and constructive feedback. Background: The introduction of SLTs in an advanced electromagnetics bachelor course…

Science education has an important role to play in supporting our young people to meet the complex challenges of the modern age. Students need a curriculum that can prepare them to work collaboratively, competently and confidently to address the wicked "glocal" problems of our time. Rangatahi themselves recognise this - those involved in…

A mixed-methods research study was designed to test whether undergraduate engineering students were better prepared to learn advanced topics in biomedical engineering if they learned physiology via a quantitative, concept-based approach rather than a qualitative, system-based approach. Experiments were conducted with undergraduate engineering…

This study investigated novel pedagogies for helping teachers infuse inquiry into a standards-based science curriculum. Using a multi-user virtual environment (MUVE) as a pedagogical vehicle, teams of middle-school students collaboratively solved problems around disease in a virtual town called River City. The students interacted with "avatars" of…

Describes a course developed for undergraduate students that includes an environmental science lecture and laboratory section. Focuses on the laboratory section as the critical component with activities that are real-world related, hands-on, problem solving-based, and use cooperative learning approaches. (Contains 12 references.) (Author/YDS)

A dissertation study is described which employed action research methods and was conducted over four semesters of practice in a large first year undergraduate physics laboratory making extensive use of microcomputer-based laboratory (MBL) technology. Three cycles of action research are recounted, along with the resultant changes in goals,…

The last decade has seen the development of a number of computer-based interactive physics programs at the university level. Set in a cognitive apprenticeship framework, such programs view the instructor as a mentor, and the essential learning constructed in a collaborative process. It is expected that such programs, grounded as they are in…

Details the results of a survey on the most important instructional strategies that enhance learning and employ the vehicle of environmental education. Discusses constructivism, cooperative learning, and problem solving. (DDR)

Explains the Core Skills framework which emerged as part of the Higher Still Development Programme in Scotland at the same time as similar developments of Key Skills in the rest of the United Kingdom. Describes the unique aspects of the Scottish program. (WRM)

Describes an instructional program designed to promote scientific literacy among middle grade students. The program used a collaborative group instruction approach and focused on the development of tasks that provided students with opportunities to solve problems and to employ concepts useful to scientific problem solving. (PAM)

Points out that college freshmen expect major changes in the academic environment as they move from secondary school. Recommends that faculty use this opportunity to show students how to think for themselves. (DDR)

Cognetics provides an exciting cooperative learning experience for students that develops both thinking skills and content knowledge. In Cognetics, teams of students in grades 3 to 12 create solutions to problems. This set contains a student manual and a teacher's manual. The teacher's manual explains the concept of cognetics and then provides…

Science education standards urge less emphasis on memorizing decontextualized scientific facts and more emphasis on students investigating the everyday world and developing deep understanding from their inquiries. This paper describes work in developing science curriculum materials that support current reform movements. It includes assumptions for…