Describes the use of the Personalized System of Instruction (PSI) method in an undergraduate process dynamics and control course. Includes grade distribution data and student questionnaire results. (MLH)

Answers criticisms of self-paced instruction (SPI) by citing advantages of SPI over lecture methods. Concludes that criticisms of SPI are useful since they indicate in which areas further research should be conducted to improve this method of instruction. (MLH)

An engineering graphics course offered at North Carolina State University for freshman engineering students is described. The course is divided into 14 units and the students are allowed to proceed at their own pace. The first 11 units comprise the required core; the remaining 3 units may be chosen from other areas such as computer graphics,…

Describes a chemical engineering course that combines self-paced methods and lectures. (MLH)

PLATO has become a successful method for computer-based education in a statics course since it offers diversified teaching/learning activities as well as alternative ways to teach content and exercise skills. Advantages for student learning are discussed, course guidelines are given, and a description of the course's computer graphics is provided.…

Discusses a method for teaching engineering design in which case studies are combined with programmed instructional materials. (MLH)

Presents the objectives of a four-year college education in engineering. Evaluated self-paced instruction as a means of achieving those objectives. (GS)

Describes a two semester course of 24 units based on "University Physics" by Sears and Zemansky which has two levels of mastery: passing and superior, but is graded. Experience with four repetitions is reported. (GH)

Presents the view that formal assignments such as problem sheets to be solved at home within a given amount of time are detrimental to the development of a mature outlook in college students. Presents an alternative to this approach. (GS)

Discusses typical problems in self-paced courses and suggests ways to approach these problems: grading, student procrastination, and adequately introducing the students to the course. (MLH)

Presents three viewpoints on the Keller Plan or Personalized System of Instruction (PSI), given by an associate dean, a department chairman, and a professor. Concentrates on PSI engineering courses, but includes many general comments. (MLH)

Discusses the format, grading procedures, and student reaction to two undergraduate engineering courses taught by programed instruction. Statistical analysis shows that the programed instruction resulted in higher and more uniform student achievement than did the conventional instruction in the same subject area. (MLH)

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)

The use of graphic art illustrations will prove to be a significant improvement in meeting the criteria for effective programed instruction. (BB)

This paper describes the instructional format of the lecture and the self-paced methods of teaching FORTRAN at Michigan State University and compares end-of-term grades of students taking a second computer science course based on whether they took the first course in the self-paced or the traditional lecture format. (Author/BB)