Presented are the results of a survey conducted to identify occupational health efforts in university chemistry laboratories. (HM)

The goal of this safety guide is to enable students to take more responsibility for lab safety by using the Self-Audit System for Students and to understand the responsibility for safety shared by the institution through the development and maintenance of a Chemical Hygiene Plan. This student guide discusses safety equipment and the procedures…

Presents two articles which are part of a series concerned with safety in school science in the United Kingdom. The two articles deal with restricted chemicals and experiments. (HM)

Information from a variety of sources on laboratory safety is pooled to propose a universal code. Along with caution, warning, and danger labels, a required use category is suggested. (CP)

The purpose of this safety manual is to provide a resource to help manage and minimize potential risks in science classrooms where students spend up to 60% of instructional time engaged in hands-on activities. This manual contains information on standards, legal aspects, and responsibilities for science safety; general laboratory safety for…

Five articles in this issue focus on safety education in agricultural laboratories. Topics discussed include teacher liability; elements of a safety instruction program; state and federal safety standards; ground fault current protection; and eye protection requirements and equipment. (SK)

Describes ideas used to introduce the Australian Science Education Project (ASEP) for the students of Henley High School in Australia by helping students to gain access to lab equipment, facilities and manuals with a minimum of teacher direction. (HM)

At north Arundel Vo-Tech in Maryland a well-organized safety program involves the entire school staff--plus Maryland Occupational Health and Safety Act. Strict enforcement of safety violations keeps everyone safety conscious--including the administration and custodial staff. (Editor/HD)

Compares safety in the chemical industry to academic chemistry laboratories based on the incidence rate for minor industrial injuries compiled by the U.S. Department of Labor, Bureau of Labor Statistics and the author's estimate of academic rates. Provides a list of over 50 errors and omissions commonly found in chemical laboratories. (JM)

Describes safety practices for laboratory fume hoods based on certain assumptions of hood design and performance. Also discusses the procedures in preparing to work at a hood. A checklist of good hood practices is included. (JM)

Safety issues specifically related to the analytical laboratory are discussed including hazardous reagents, transferring samples, cleaning apparatus, eye protection, and equipment damage. Special attention is given to techniques which not only endanger the technician but also endanger expensive equipment. (CW)

A need for systematic organization of safety standards in several areas of university activity is supported. It is emphasized that safe facilities and activity procedures should not be assumed but must be carefully designed into buildings, and preventive measures must be organized and enforced through administrative policies. Papers presented fall…

This study was designed to ascertain the current practices of eye safety in Arizona high school industrial education laboratories, including the enforcement of eye safety legislation, use of eye protection devices, how the eye ware meets the American National Standards Institute specifications, and the teachers' interpretations of the existing eye…

Enumerates variables involved in the safe operation of a fume hood. Describes a test to measure hood performance. Discusses variables which effect hood performance. Lists design changes sometimes necessary to provide more space and encourage good practices. Concludes with a summary of good hood practices. (CW)

The University of Georgia (UGA) biosafety program was initiated in response to requirements for recombinant DNA experiments rather than laboratory-acquired infections. This and other environmental safety programs at UGA are described, considering three of the four recognized levels of biocontainment. A fire extinguisher inspection computer program…