In this study we explored how the science department shaped the relationship between a science department head, Mr Greg, and a teacher, Ms Horton, as they grappled with their expectations of, and responsibilities for, teaching and leadership in the daily life in the department. We found that, from their life histories and their positions in the…

Discusses how teachers put together a science department portfolio of student work representing National Curriculum levels. (MKR)

A division of chemical education has been created within the chemistry department at Purdue University. The nature of chemical education, impediments to research and development in chemical education, and future directions of the division are discussed. (JN)

Suggests that academic departments reshape the intellectual climate for chemistry education as one way to ensure the future of chemistry. Current practices in chemistry and possible benefits which may result if the system is modified are examined. These benefits include better public support and understanding of chemistry. (JN)

Highlights an American Chemical Society (ACS) survey of 103 chemistry departments on their instrumentation needs. The 2-year study affirms that instruments used for chemical research and education are becoming outdated because of their age and changes in technology. The survey also reveals how departments plan to use newly acquired instruments.…

Describes the University of Kansas chemistry department's safety program. Comprehensive regulation, undergraduate regulations, safety equipment, handling accidents, inspections, and training are addressed. (JN)

A questionnaire was mailed to 50 major chemistry departments, 112 smaller chemistry departments, and 25 chemical engineering (CE) departments. The survey (included in an appendix) consists of a series of questions on two broad subjects--the current inventory at the surveyed institutions and the needs for instrumentation. Responses were received…

Discusses the main features of the department head's role in determining the success of girls in physics. Areas examined include the presentation of material, classroom management techniques, option choices, and issues related to segregating boys and girls for several subject areas. (JN)

Questionnaire responses from 193 high schools indicate that very few science teachers use microcomputers regularly in classrooms. Descriptions of schools/science departments, background information on faculty using microcomputers, and nature/extent of utilization are discussed along with possible causes of limited use and recommendations for…

Presents an appendix to the Committee on Professional Training (CPT) of the Division of Chemical Health and Safety of the American Chemical Society. The information is applicable to chemical health and safety policies and practices within the chemistry department of an academic institution. Includes lists of references with safety information. (JN)

This publication was written for use by the Department of Defense Dependent Schools Pacific Region science coordinators, school principals, science department chairs and teachers as they worked to identify strengths and weaknesses of science programs in middle and high schools. It can also be used by science coordinators, during school visits.…

Presents excerpts of a survey on the instrument status in chemistry departments and the perceived needs of those departments for new instruments. Responses are based on data from 32 chemistry departments at major research institutions, 71 departments at smaller schools, and 13 chemical engineering departments. (JN)

Examines the possible advantages of subject area specialists for elementary science. Discusses four different implementation models: (1) Physical education teacher model; (2) Media center model; (3) Departmentalized model; and (4) School-within-a-school model. (YP)

Presents the five goals and supporting outcomes that represent students' knowledge and habits of mind resulting from participation in a pre-K through grade-13 science education programs in Ohio. The five goals are in the following areas: (1) the nature of science, (2) the physical setting, (3) the living environment, (4) societal perspectives, and…

This guide is intended to assist college faculty members working with graduate students from developing nations who may need help bridging the gap between their educational backgrounds and the requirements of graduate science programs which are primarily planned for U.S. students. Differences are noted in the pre-graduate school training of such…