Describes the comprehensive approach taken by the Center for Pre-College Programs at New Jersey Institute of Technology to motivate and prepare students for higher education. Discusses precollege programs, secondary school programs, and elementary school programs. Explores the impact of the program on the success of the students. (MVL)

This volume includes 303 entries of programs on engineering and engineering technology; 239 entries on engineering programs, and 64 entries on engineering technology programs. The information includes the school name and address; school profile; admission information including student expenses and financial aid; graduation requirements; and…

Provides a summary of research and graduate study activities at 227 U.S. and Canadian engineering colleges. Included is information on the number of faculty and students; degree requirements; degree granted; research areas; and research expenditures of each institution. Presents indices by fields of graduate study and areas of research. (YP)

Discusses the restructuring of the graduate program to accommodate emerging fields in engineering. Notes half of the graduate degrees Cornell grants each year are M.Eng. degrees. Offers 12 specialties: aerospace, agriculture, chemical, civil, electrical, mechanical and nuclear engineering; computer science, engineering physics; geological…

Discusses the use of laboratory courses as an invaluable teaching aid to assist in meeting both social and technical objectives. The use of laboratories in conjunction with technical theory courses, as well as in making students aware of their responsibilities to themselves, their teams, and to the instructor are described. (BC)

Discusses a two-year masters program; one year of lecture and practical training, and a second year on a supervised design task in an industry or development laboratory. Reviews the emphases of the curriculum. Describes the two paths to engineering careers in the Netherlands. (MVL)

Discusses factors related to developing successful programs for training faculty in various aspects of college teaching, indicating that some tangible advantage for faculty participating in such programs is needed. Illustrates this by showing how a successful program was related to paying faculty one week's salary for attending the program. (JN)

Reviews and discusses objectives of the humanities and social science (HSS) component in undergraduate engineering programs, examining variations in HSS requirements among engineering disciplines. Also suggests some innovative approaches intended to resolve the conflict between the objectives and the current reality in engineering curricula. (JN)

Mechanics courses at West Virginia University are taught exclusively from programed instructional materials. Presents: (1) descriptions of these courses; (2) data indicating higher achievement by students participating in programed courses compared to students in courses using the lecture method; and (3) reasons for the success of the courses. (DH)

Discusses programming projects in applied technology courses, examining documentation, formal reports, and implementation. Includes recommendations based on experience with a sophomore machine elements course which provided computers for problem solving exercises. (DH)

Defines biological engineering and discusses why it is needed. Lists some interesting areas of biological engineering. Presents a table of four phases of scientific disciplines. (YP)

Discussed are the importance and needs of emerging applications of photonics technology. Stressed is the need for people skilled in its use. A bachelors program in photonics is described. (CW)

Described are the rationales for the Engineering Practices Introductory Course Sequence (EPICS) program at the Colorado School of Mines, and the McMaster Problem-Solving (MPS) program at McMaster University. The professional development model used in these programs is discussed. (CW)

Describes a two-semester-hour freshman course in engineering graphics which uses both traditional and computerized instruction. Includes course description, computer graphics topics, and recommendations. Indicates that combining interactive graphics software with development of simple programs gave students a better foundation for upper-division…

Presented are the accreditation standards for engineering schools as developed by the Accreditation Board for Engineering and Technology (ABET). Discussed are various challenges presented by the standards and the need to improve engineering education. Items considered are developing a definition of a "good" engineering education, topics…