Describes the development and implementation of an investigative laboratory for nonmajor undergraduate science students. (ZWH)

Highlights a symposium which focused on chemistry courses, content, and objectives designed to meet the needs of nonscientist citizens. Examples of courses, objectives (such as the ability to solve social problems), and instructional strategies are provided. (JN)

Describes a course, "Exercise Physiology and Biochemistry," for nonscience majors attracted to athletics. Outlines the lecture and laboratories combined with the lecture. Provides programs for daily exercise and weight training. (YP)

Offers an author's understanding of investigative research and shows how it can be accomplished in a one-semester, nonmajors, first-year biology course. (ZWH)

Argues that, to make nonscientist students scientifically literate, they need to know the process by which science works, the so-called scientific method. (PR)

Offers perspectives on approaching and teaching a biology course for nonmajors. Proposes that teaching less may better prepare students to become more scientifically literate. Identifies areas and priorities that may effectively contribute to students' understanding of science. (JM)

Describes a college reform effort that includes the development of a college science course for nonscience majors. The main goal of the course is to advocate the interdisciplinary nature of all sciences and to involve the students actively in the discovery process as a way of learning science. (ZWH)

Offers three reasons to teach science to nonscientists--curiosity, technological bewilderment, and technological necessity, and offers some ideas on how courses addressed to these ideas ought to be taught. (PR)

Claims scientific literacy is important for all college students, including nonscience majors. Discusses issues related to scientific literacy and courses that include scientific literacy. (YP)

Discusses findings regarding the academic backgrounds of students taking algebra-based physics. Four areas were examined: (1) performance in math courses; (2) high school physics background; (3) community or junior college experience; and (4) science education majors. Suggestions for improving the academic performance for students in these areas…

Twelve papers focusing on various aspects of teaching chemistry to the nonchemist are presented. Includes details of courses designed around specific topics and/or needs (such as art hazards), use of field trips, issues related to the problem of explaining technical ideas to lay persons, and other topic areas. (JN)

Discussed is the idea that scientific illiteracy among scientists lies at the heart of the problems with undergraduate science education. Included is a description of a science literacy course for nonmajors and a proposed list of the most important ideas underlying science. (KR)

Describes a course, "Great Ideas in Science," for undergraduate nonscience major students. The course emphasizes a few key overarching concepts in physics, chemistry, geology, and biology to introduce students to the essential aspects of science without getting involved in the complex vocabulary or rigorous mathematical derivations. (PR)

Reported is a profile of nonmajor instruction determined through a nationwide survey of college and university professors who teach introductory courses to non-science majors. The purpose of the survey was to identify the critical issues and problems that exist related to this population of students. (KR)

Described is an introductory, nonscience majors biology course. Discussed are the goals and objectives of the course; the use of the learning cycle philosophy of teaching and learning; the use of classic experiments, textbooks, examinations; and the training of graduate teaching associates. (CW)