This paper explores the integration of STEM activities in teaching and learning, emphasizing the importance of innovative pedagogical approaches in effectively introducing theoretical concepts, such as variables and functions, and merging them with practical applications. Drawing on existing literature, this study investigates the integration of…

Computational thinking is an essential skill in the modern global workforce. The current public health crisis has highlighted the need for students and educators to have a deeper understanding of epidemiology. While existing STEM curricula has addressed these topics in the past, current events present an opportunity for new curricula that can be…

Adaptive tools and techniques for lecture instruction were developed for a blind student in a nonmajors college chemistry course. These adaptive instructional aids assisted the student in writing and balancing chemical reactions, calculating unit conversions and concentrations, drawing Lewis dot structures, understanding structural representations…

Preservice preparation courses for elementary teachers of science can provide opportunities to build pedagogical content knowledge. One common concern of preservice teachers is how to cope with a preplanned lesson that does not proceed as planned. Providing opportunities for preservice teachers to experience the unexpected actually immerses them…

Compares Reform of Secondary Education (ROSE) students' and nonROSE students' perceptions of five psychosocial dimensions of their science practical tasks: student cohesiveness, open-endedness, integration, rule clarity, and material environment. Contains 17 references. (DDR)

Reviews literature on using a problem-solving approach in science instruction. Examines teaching strategies associated with such an approach and discusses a problem-solving approach that works in the traditional laboratory. Discusses implications of the approach and provides some suggestions for science instruction. Contains 17 references. (DDR)

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)

Describes a curriculum designed around a series of investigative, macroscopic problems that enable students to learn the big picture of modern biology for themselves. Presents a hands-on investigative activity that gives students an accurate, easily grasped analogy for DNA expression. (JRH)

Discusses the needs of freshmen chemical engineering students in terms of courses related to the field. Describes the nature and content of a course designed to involve freshmen in a chemical engineering curriculum. (DDR)

Presents seven classroom practices for beginning and senior science teachers. Categories include community, curriculum, constructivist connections, confidence, competence, computers, and caring. (YDS)

Describes the Science Enrichment Program (SEP), a multicultural summer program that aims at helping participants identify their special aptitudes and develop their particular interests through a multitude of hands-on experiences so that they can identify with an area of science. (JRH)

Argues that in order to have bona fide inquiry experiences, students must formulate their own questions, create hypotheses, and design investigations that test those hypotheses and answer the proposed questions. (DDR)

Explores the issue of how to make chemistry more personally meaningful to students who have no interest in continuing the study of science. Describes two projects that each have an interview, research, and presentation format. (DDR)

Presents an activity that provides a way to cover the complex topic of mass spectrometry and connects with a discussion of the 2002 Nobel Prize in chemistry. (DDR)

Shares perspectives on what is happening at the national level in science education reform, why reform is needed, and the role that environmental education can play in this reform effort. Contains a discussion of the recent changes in science content and instructional goals. (DDR)