Describes a chemical engineering course for liberal arts students that is taught from a scientific, social, and symbolic perspective. A summary of the early days of oil refining is included as representative of one of the major content segments of the course. (ML)

Five years ago, an introductory chemistry course for chemists and chemical engineers was redesigned to stress the scientific method, problem-solving, and reasoning skills. Describes: (1) changes made in the course; (2) impacts on student achievement; and (3) student ratings of the course. (JN)

Provides data (obtained from an American Chemical Society survey) on undergraduate studies in chemistry. Lists and discusses chemistry, elective chemistry, and supporting courses (such as writing and physics) considered to be important by professional chemists. Also recommends that undergraduates pursue studies in biochemistry, polymer chemistry,…

Describes a program jointly sponsored by Washington State University and the University of Idaho, located eight miles apart. Discusses course offerings, problems encountered in arranging scheduling, bookkeeping, travel and computer usage. Advantages include broader course offerings, better utilization of special skills of faculty, joint research…

The longitudinal study with second-year Chemical Engineering students (N=31) found conventionally taught courses generated study problems in the lecture and student assessment components whereas in resource-based education students confronted problems with the resource laboratory, with reference materials, with tutorials, and with student…

Describes a chemical engineering course for senior undergraduates and first year graduate students in biochemical engineering. Discusses five experiments used in the course: aseptic techniques, dissolved oxygen measurement, oxygen uptake by yeast, continuous sterilization, and cultivation of microorganisms. (MVL)

Lists 24 frequently asked questions concerning hydrogen as a fuel with several responses given to each question. Emphasized are hydrogen production, storage, transmission, and application to various energy-consuming sectors. Summarizes current findings and research on hydrogen. An extensive bibliography is included. (ML)

Describes the design and development of a computer simulation and accompanying software to teach the scaleup of chemical processes to chemical engineering students at Penn State. Collaboration on the instructional development team is described, software modules are explained, and students' evaluations of the system are reported. (LRW)

Described is a laboratory in which students are confronted with rigs built from full-sized industrial machinery and equipment. Students must draw a flow sheet, dismantle and draw key components, reassemble the parts, operate the rig, and interpret the run data. The laboratory and the course built around it are discussed. (KR)

Presents the framework for a chemical engineering course using ordinary differential equations to solve problems with the underlying strategy of concisely discussing the theory behind each solution technique without extensions to formal proofs. Includes typical class illustrations, student responses to this strategy, and reaction of the…

Discusses the quality of instruction for communication skills and creative thinking skills in engineering education and the difficulties caused by the single-subject approach in different engineering majors. Provides alternative solutions to the problem such as irrelevant teaching methods, difficulties in implementing technology in classrooms, and…

Reviews the current goals of a laboratory course and describes experiences in using laboratory time to cover several important topics related to industry and academia. Discusses several subjects and presents related experiments. Contains 184 references. (DDR)

Argues that the unit operations laboratory provides an ideal setting to help chemical engineering students become better engineering practitioners. Describes a summer program at the Colorado School of Mines that incorporates experience into a unit operations laboratory. (DDR)

This article reports a study in which student performance and approaches to study in a CD-ROM version of a chemical engineering course were examined. The study consists of three phases. The purpose of phase 1 was to evaluate of the efficacy of CD-ROM for this content and student population. Therefore, we compared the performance of students who…

In this paper we report on the development of a stochastic modeling course for chemical engineers in the fourth year of the Cambridge Chemical Engineering Syllabus. The general course structure is presented and an interactive Web module, which is used in the course, is presented in more detail. The central aim of the Web module is to enable…