Presents recommendations sent to schools by the Laboratory Safeguards Sub-Committee in the United Kingdom to prevent hazards of a number of chemicals. How to avoid phosphorous fires and accidents from doing dangerous experiments in chemistry are also included. (HM)

Discusses some problem areas as they presently exist in many secondary school laboratories in Australia, and presents some views on how safety in science should be presented to the Australian students. (Author/HM)

A rebuttle to the NSTA publication, "Safety in the Classroom" is given. Opinions of the author are substantiated by research and the references are included. (SA)

This is an account of the discovery of a potentially dangerous high explosive chemical on storeroom shelves of secondary schools in Pennsylvania. A list of guidelines is given to eliminate problems in the future. (SA)

Discusses the legal implications of situations in which chemical educators may be liable for negligence. (MLH)

Introduces an inquiry-based laboratory experiment in which students identify an unknown bacterial species by using techniques such as Gram staining. Uses an authentic problem solving approach in a scenario entitled, "What poisoned the apple juice?" (YDS)

Presented is an experiment in which students recover almost 90 percent of the original lead chloride thus saving on costs of chemicals and disposal. Included are experimental procedures and a discussion of typical results. (CW)

Describes a constructivist chemistry laboratory approach based on students' personal experiences where students had the opportunity to develop their own experimental processes. Points out both the fruitfulness and difficulties of using a graduate student as a teaching assistant. (YDS)

Lists requirements of hazardous-substances legislation as it pertains to science laboratories with a summary of obligations under the Hazardous Substances Compliance Standard for manufacturers, importers, suppliers of hazardous substances, employers or principals, and employees. (AIM)

This book provides a basic introduction for the student to hazardous materials chemistry. Coverage of chemistry, rather than non-chemical hazards, is particularly stressed on a level which the layman can understand. Basic terminology is emphasized at all levels, as are simple chemistry symbols, in order to provide the student with an introductory…

This brief guide discusses ways to provide safe instruction and to minimize the risk of injury and potential liability in a laboratory environment. The three main concerns covered are: (1) the physical plant must be in compliance with the Occupational Safety and Health Administration (OSHA); (2) the physical facility should have all tools in good…

Teacher input is essential to facility planning. A feasibility study also determines needs by focusing on community characteristics and needs, instructional efficiency, safety, and future plans. (MW)

This document presents the Alabama State Department of Education guidelines for science laboratory safety, equipment, storage, chemical safety, rocket safety, electrical safety, safety with radioisotopes, and safety with biologicals. Also included is a brief bibliography, a teacher's checklist, a listing of laser facts and regulations, and a…

This booklet is made available by the National Science Teachers Association to provide district safety officers, school principals, science department heads, and secondary school science teachers with information on safety in schools, especially in science classrooms. The range of information includes Occupational Safety and Health Administration,…

GUIDELINES FOR USE BY TEACHERS AND ADMINISTRATORS IN THE DEVELOPMENT OF A K-6 SCIENCE PROGRAM ARE PRESENTED. SECTIONS OF THE MANUAL INCLUDE INFORMATION RELATED TO--(1) RECENT CHANGES IN THE PHILOSOPHY AND TECHNIQUES OF SCIENCE TEACHING, (2) THE NATURE AND NEEDS OF THE LEARNER, (3) EDUCATIONAL OBJECTIVES, (4) THE INTEGRATION OF EXISTING SUBJECT…