The COVID-19 pandemic has accelerated the shift from traditional in-person teaching to remote and online learning, necessitating a more adaptable educational platform to serve the diverse needs of students. Transforming hands-on "wet lab" activities into virtual "dry lab" exercises can promote a more accessible and flexible…

Describes the modification of computer programs (BISON and POLLUT) to accommodate species and areas indigenous to the Pacific Coast area. Suggests that these programs, suitable for PET microcomputers, may foster a long-term, ongoing, inquiry-directed approach in biology. (DS)

Discusses various issues in science curriculum/instruction and proposes that the National Science Teachers Association assume the responsibility for establishing quality science instruction. Topics/Issues include, among others, competencies science teachers will need in the future, computer oriented programs, and interdisciplinary science…

Explores several options and advantages of using microcomputers in science teaching. Describes programs for calculating pH, Maxwell-Boltzman distribution of velocities in a gas, atomic orbitals, and lattice energies. Also suggests use of microcomputers in the areas of simulations, scoring tests, and controlling stock. (DS)

Reviews developments in chemistry curriculum/instruction, providing lists of chemistry cassettes, monographs, educational literature from the Royal Society of Chemistry, new teaching packages, and course materials for science in society. Extends information presented in a previous article (EJ 235 051) appearing in this journal. (JN)

Discusses single-board microcomputers which are designed primarily for data acquisition and control. Directed toward individuals with little or no hands-on experience with microcomputers, this article gives references, among others, for reading about and purchasing microcomputers. (SK)

Forty-five "poster session" papers presented at the Seventh Biennial Conference on Chemical Education (Stillwater, Oklahoma 1982) are highlighted. These papers focused on computers in chemistry and chemical education (emphasizing programs) and on instructional innovations (including courses, teaching methods, testing, experiments, and others). (JN)

Science Training Enrichment Program (STEP) is a program designed to improve high school-college cooperation. Program objectives and activities to meet the objectives are described. The latter include Saturday science seminars, lecture series, computer workshops for students/teachers, consultant program, and a two-week summer practicum for high…

Provides abstracts of papers, workshops, and symposia presented at the January 21-24, 1985 joint winter meeting of the American Association of Physics Teachers (AAPT) and the American Physical Society (APS). The complete program of the meeting is included. (JN)

Discusses the use of microcomputers as a universal instrument to replace more expensive instrumentation in many traditional labs. Describes the availability of microcomputers as inexpensive educational tools which can be used successfully in labs with minimal requirements on the computer. (SK)

Describes the technical and pedagogical characteristics of the ESSOR system simulation on minicomputers, which allow the simulation of science experiments in the laboratory. Reflects on several years of use and development in the field of chemistry. (Author/DS)

A Microelectronics Education Programme-funded project is developing computer assisted learning modules in the languages, science, and craft/design technology, as well as fostering computer awareness. The project's goal is to produce materials which will pave the way for the rapidly changing curriculum in addition to producing materials for…

This ERIC Digest presents a brief description of some applications and findings of the microcomputer in science classrooms. It is suggested that microcomputer simulations are at least as effective as hands-on experiences for some cognitive outcomes and may in fact enhance these outcomes when the simulations are sequenced to follow hands-on…

Eight general areas were addressed in this conference on Japanese/United States chemical education, including: introductory courses; adequacy of texts, manuals, laboratory workbooks for non-majors; laboratory role in non-major courses; adaptation of such techniques as computers, programmed instruction and videotapes; evaluation and testing…

The National Science Teachers Association (NSTA) Horizons Committee met in Iowa City (Iowa) before the 1982 Curriculum Update Conference. The committee was charged with planning a new future of science education. The thinking of the members of the Horizons Committee provided the framework for the 1982 conference. These proceedings represent a…