Presents findings of the Engineering Manpower Commission's 1983 survey of engineering technology enrollments. Includes data on enrollments for all students by curriculum and academic year; women and minorities; all associate degree programs by institutions; all bachelor degree programs; and for Accreditation Board of Engineering and Technology…

Presents data from the Engineering Manpower Commission's 1983 survey of engineering technology degrees. Results indicate a 12 percent increase in associate degrees and a 9.9 percent increase in bachelor's degrees. Summaries of engineering technology degrees awarded by curriculum and degrees by school and degree level are included. (BC)

The relationship between engineering technology and engineering is explored by discussing the maturing of the engineering profession, the need for more graduate education in engineering, the interface between engineering and technology, and implications for the future. (BC)

Provides a checklist for microprocessor laboratories and outlines the programs offered at Milwaukee School of Engineering, where students are introduced to two microprocessor elective courses. (CS)

Describes recruitment efforts aimed at attracting women students to the engineering technology program at the University of Arkansas at Little Rock. Discusses five activities undertaken: (1) secondary school visits; (2) counselor's workshops; (3) women's day programs; (4) literature packets; and (5) follow-up surveys. Women's enrollment is 16…

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)

Describes how computers have been integrated into the engineering technology curriculum at Murray State University, focusing on their use in instructional programs, required programming, simulation, and computational projects. Also focuses on computer assisted instructional formats. Indicates no restructuring of course content, expansion of…

Discusses several reasons for requiring senior design projects in electrical engineering technology (EET). Describes the senior design project program in EET at Indiana University-Purdue University at Fort Wayne. Lists points to consider regarding management of a projects program for faculty engaged in or contemplating such an approach. (CS)

Summarizes survey results from 138 technology, engineering, and occupational education administrators on topics of demographics, training, experience, and competencies. Current and future skills required are listed along with interest in professional improvement opportunities. Significant differences in competency levels between subgroups are…

Surveyed engineering technology (ET) students (N=1306) to determine the percentage and characteristics of men and women enrolled in ET programs. Areas examined included: (1) recruitment; (2) family background; (3) academic background, attitudes, achievement, expectations, and goals; (4) extracurricular and cultural activities; and (5) choice of…

Reported are the results of a survey of engineering and engineering technology (E.T.) faculties. Comparisons are drawn between various segments of these two communities. The deans' views of their critical problems in administering engineering and E.T. programs are described. (KR)

Presents data on engineering degrees granted by institutions during 1984. Statistical categories include: highest number of degrees by state and university; disciplines; women, minorities and foreign nationals; degrees by school; and degree level for each state. Information on engineering technology degrees is also given. (DH)

Discusses the admissions selection practices, educational programs, quality standards, and employment characteristics of engineering and engineering technology in the United States. The importance of these two occupations as part of technical teams (which include scientists and technicians) is documented and stressed. (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)