Discusses the approach taken to introduce computers/computing into the curriculum at Brighton Polytechnic's Department of Mechanical and Production Engineering. Also lists aims of computing and microprocessor work, shows a typical computer exercise, and discusses polynomial approximation for a cam. (JN)

Describes a course for chemical engineers, chemists, and petroleum engineers that focuses on colloid and surface science. Major topic areas in the course include capillarity, surface thermodynamics, adsorption contact angle, micelle formation, solubilization in micelles, emulsions, foams, and applications. (JN)

A special-topics course in polymer processing has acquired regular course status. Course goals, content (including such new topics as polymer applications in microelectronics), and selected term projects are described. (JN)

Describes a course designed to show similarities between electrochemistry and corrosion engineering and to show graduate students that electrochemical and corrosion engineering can be accomplished by extending their knowledge of chemical engineering models. Includes course outline, textbooks selected, and teaching methods used. (JN)

An instructional robotics laboratory that is unique in the United States was created in 1984 at the University of New Mexico. Descriptions of the laboratory, course work offered, student projects, and other areas are provided. (JN)

The organization and contents of a linear algebra course for chemical engineers are described. The course, which emphasizes both abstraction and application, meets twice a week for two hours and runs largely as a lecture, although active student participation is encouraged by frequent questions from the instructor. (JN)

Describes the major aspects of a 20-lecture introductory course for environmental science students, showing how microcomputers can help teach dynamic systems concepts. Also discusses the continuous stirred tank reactor as a simple dynamic system, higher order systems, frequency response, nonlinear systems, and feedback control. (JN)

Describes a course that provides students with a fundamental understanding of the chemical, catalytic, and engineering sciences related to the chemical reactions taking place in a variety of reactors of different configurations. Also describes the eight major lecture topics, course examinations, and term papers. The course schedule is included.…

Describes a course designed to provide the necessary academic study prior to students engaging in the practice of irrigation engineering. Rationale for the course, course structure, and special features of the course are included. (JN)

The process control sequence at Auburn University consists of two four-credit hour lecture courses and a two-credit hour laboratory course. Descriptions of the courses and of the laboratory are provided. Various comments about the sequence are included. Authors report that students are better prepared in process control under this sequence. (JN)

Discusses the Keller Plan or personalized system of instruction (PSI), a mastery-oriented, self-paced, modular teaching strategy using student/peer proctors. Success for PSI in chemical engineering, operations research, electrical engineering, and nuclear engineering courses is explained. (DH)

Describes a course designed to achieve a balance between exposing students to (1) advanced topics in transport phenomena, pointing out similarities and differences between three transfer processes and (2) common methods of solving differential equations. (JN)

Describes a course designed to: use approaches developed in the study of transport phenomena as a unifying foundation; provide students with an understanding of the design and operation of these proceses; and review particular advantages and limitations of the processes being studied. Course content and teaching methods are included. (JN)

Describes a course (given to junior/senior students with strong background in thermodynamics and transport phenomena) that covers the theoretical and practical aspects of properties estimation. An outline for the course is included. (JN)

Describes the content, objectives, and requirements for a one-semester (30 20-hour sessions) graduate engineering course at the University of Concepcion, Chile. Major course topics include: structure and properties of coal; coal pyrolysis and carbonization; coal liquefaction; coal combustion and gasification; and economic and environmental…