Outlines safe laboratory procedures for the handling of micro-organisms including aseptic technique, manipulation of cultures, and treatment of contaminated equipment. Identifies the principal hazard as the microbial aerosol, explains its possible effects, and describes the appropriate precautions. (GS)

Describes a method for the preparation of hydrogen gas which is safer than conventional procedures. The procedure and equipment are described in detail. (BR)

This module provides safety guidelines for vocational teachers, principals, and students in the vocational shop class, including tips on the prevention and handling of accidents if they occur. It answers questions on student and administrator liability in accident situations. Suggestions are included for increasing the safety of special needs…

This working paper of the Association of American Medical Colleges addresses four issues: the propriety of conducting industry-sponsored research in schools of medicine; necessary institutional safeguards; individual responsibilities of academic scientists; and the implementation and monitoring of the recommendations made herein. The paper was…

Describes a "feedback course" offered at Brown University, in which undergraduates redesigned the introductory organic chemistry laboratory. The students specified objectives for the ideal lab, then devised laboratory experiments. Laboratory safety was stressed, all dangerous reagents and solvents were eliminated, and toxicological data were…

This publication is a safety handbook designed for science teachers of elementary and secondary schools. In an effort to insure prevention of accidents in school laboratories, it advocates careful planning, adequate experimental design, and the acquisition of correct laboratory techinques on the part of the teacher. The handbook gives instructions…

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…

Describes a chemical laboratory safety course presented at Western Michigan University. (SL)

Reviews legislation and controls in effect, and needed, to reduce the hazards of violent reactions in the uncontrolled mixing of incompatible chemicals. (SL)

Contains excerpts from ASEP Newsletters on safety in the science room, making and using compost, energy, unified science, and a variety of other topics. (CP)

Elements of the development of a robotics and automation laboratory are discussed. These include the benefits of upgrading current staff, ways to achieve this staff development, formation of a robotics factory automation committee, topics to be taught with a robot, elements of a laboratory, laboratory funding, and design safety. (CT)

Provides information on updating older fume hoods. Areas addressed include: (1) adjustment of the hood's back baffle; (2) hood air leakage; (3) light level; (4) hood location in relation to room traffic and room air; and (5) establishing and maintaining hood performance. (JN)

Describes procedures for disposing of dichromate cleaning solution, picric acid, organic azides, oxalic acid, chemical spills, and hydroperoxides in ethers and alkenes. These methods have been tested under laboratory conditions and are specific for individual chemicals rather than for groups of chemicals. (JN)

Highlights guidelines that should be implemented in administering a plan for the proper storage of chemicals. They include housing chemicals in multiple locations within a building to lessen the accident potential, not grouping them in alphabetical order, and storing them according to six major chemical classes. (JN)