This paper presents a series of activities and educational strategies related to the teaching of digital electronics in computer engineering. The main objective of these methodologies was to develop a final tutored coursework to be carried out by the students in small teams. This coursework was conceived as consisting of advanced problems or small…

Nanoelectronics is an emerging area of electrical and computer engineering that deals with the current-voltage behavior of atomic-scale electronic devices. As the trend toward ever smaller devices continues, there is a need to update traditional undergraduate curricula to introduce electrical engineers to the fundamentals of the field. These…

This paper details a successful and inexpensive implementation of a remote laboratory into a distance control systems course using readily available hardware and software. The physical experiment consists of a beach ball and a dc blower; the control objective is to make the height of the aerodynamically levitated beach ball track a reference…

Presents a detailed outline of topics and lectures and references for a survey course on process synthesis at Auburn University, Alabama. (JN)

Describes a course in combustion science and technology at Yale University. Presents scope of subject, course outline, and important combustion problems. (JN)

This paper describes an introductory course in microprocessors and microcomputers implemented at Grossmont College. The current state-of-the-art in the microprocessor field is discussed, with special emphasis on the 8-bit MOS single-chip processors which are the most commonly used devices. Objectives and guidelines for the course are presented,…

Presents a description, course outline, review articles and rationale for a course on Polymerization Reaction Engineering at Purdue University, Indiana. (JN)

Discusses reasons for including differential equations in the required course of study for engineering technology (ET) students. Briefly describes mathematics requirements of the ET Division of the School of Engineering at the University of Dayton. Provides an outline of their differential equations course for ET students. (CS)

Describes the undergraduate chemical engineering curriculum at the Speed Scientific School of the University of Louisville. The history of the department, a description of the chemical engineering courses, and the strengths and weaknesses of the program are also included. (HM)

This paper outlines the work in progress undertaken by the School of Engineering Technology faculty to identify, assess, and develop a course to address the depth and breadth of drafting/plan preparation and plan reading skills required by the various engineering technology programs offered at Youngstown State University. The methodology used to…

Presents an overview of the teaching of plastics at various levels of technological education in the Netherlands focusing on mechanical engineering. Highlights the design process and discusses the Dutch perspective of the role of materials engineering in engineering curricula. (ML)

A series of articles describes college programs designed to educate professionals for the telecommunications industry. Topics discussed include strategies for meeting the needs of the telecommunications industry, policy and management programs, interdisciplinary approaches, and telecommunications as taught in engineering technology programs. (CLB)

Describes a course to make technical managers more aware of computer technology and how data loggers, programmable controllers, and larger computer systems interact in a hierarchical configuration of manufacturing process control. (SK)

Describes a course, including content, reading list, and presentation on chemical reactors at Cambridge University, England. A brief comparison of chemical engineering education between the United States and England is also given. (JN)

Describes an undergraduate chemical engineering course which was designed at North Carolina State University to introduce the experimental side of chemical process technology. The course lectures, experiments, objectives, evaluation and information sources are also discussed. (HM)