Offers suggestions and outlines ten easy steps for assuring a safer science classroom environment. Includes such recommendations as: scheduling a safety inspection; displaying safety posters; enforcing a laboratory dress code; establishing a safety reference library; and updating safety report forms and procedures. (ML)

Examines some of the considerations involved in setting up a typical oxygen/organic reaction. These considerations (including protection for personnel/equipment, adequate ventilation, reactor design, maximum reactor charge, operating procedures, and others) influence how the reaction is to be conducted and what compromises the scientist must…

Part I of this paper (SE 538 295) described a simple model for estimating laboratory concentrations of gas phase pollutants. In this part, the measurement of ventilation rates and applications of the model are discussed. The model can provide a useful starting point in planning for safer instructional laboratories. (JN)

Discusses precaution in handling laboratory chemicals and research animals. Gives references, suggested readings, and a table showing fire hazard properties of some flammable liquids. (MLH)

Discusses characteristics of materials and labels used by the Department of Transportation, including label design and color: red (flammable and spontaneously combustible), white/yellow (radioactives), orange (explosives), white (poisons), yellow (oxidizers), green (non-flammable gas), black/white (corrosive), blue (dangerous when wet). Includes…

Various safety precautions for the science teaching laboratory are discussed, including rules for pupils, hazards of some reagents, and electrical safety. (SA)

The purpose of this document is to identify potentially hazardous substances that may be in use in many school laboratories and to provide an inventory of these substances so that science teachers may take the initiative in providing for the proper storage, handling, use, and if warranted, removal of hazardous materials. The document consists of…

Describes a zinc-sawdust mixture effective for cleaning up mercury spills and presents an experiment to illustrate the mixture's effectiveness. (SL)

One of the major challenges facing people committed to Teaching Safety in High Schools, Colleges, and Universities is keeping up with both the wide range of relevant technical information about potential hazards (ranging from fire protection to chemical hazards to biological issues) and the ever-changing world of safety regulations and standards.…

This handbook was prepared to help science teachers, administrators, and other school staff members understand and avoid situations in which accidents might occur in the science laboratory, on field trips, or during outdoor education experiences. Suggestions contained in this publication are generally agreed upon and recommended for consideration…

The National Research Council has published a comprehensive report on procedures for handling hazardous chemicals and on other aspects of laboratory safety. By early 1981, the Occupational Safety and Health Administration intends to present preliminary proposals for safety in chemical research laboratories. (WB)

Discusses problems of handling, storage, and disposal of chemicals in Australian secondary school science laboratories, and suggests ways of reducing the potential hazards which exist. (HM)

Discusses the possible dangers of the educational radioactive sources used in a college physics laboratory. The discussion is intended to increase the awareness of teachers and students. (HM)

One easy way to reduce the number of accidents in the lab is to go "green." Green chemistry, or sustainable chemistry, emerged about a decade ago, but the concept has been practiced for centuries by indigenous people of many continents. The basic principles of green chemistry are that you should use only what you need and recycle what you can.…

This book is intended as a guide for people who are planning chemistry and physics research laboratories. It deals with the importance of effective communication between client and architect, the value of preliminary planning, and the role of the project officer. It also discusses the size and layout of individual laboratories, the design of…