Presents a course, Physics and Time, that centers on a few topics that students with limited mathematics training and no previous science can explore in depth. Discusses concepts of time, measuring time, arrows of time, and linearity versus nonlinearity. (JRH)

Describes a high school physics teaching sequence including more modern topics. The first quarter covers cosmology, astronomy, optics, wave mechanics, relativity, gravity, and quantum theory. The second quarter covers classical mechanics. The third quarter covers electromagnetism and electronics. The fourth quarter consists of thermodynamics and…

Describes the reordering of a ninth-grade physics course that aimed at making core concepts clear to the students while at the same time developing students' skills and depth of understanding. Discusses its benefits and associated problems. (JRH)

Describes a course in which pollutant health impacts are discussed in the context of unifying concepts such as threshold v nonthreshold responses. (CS)

Describes a biology course to meet the needs of nontraditional students. Included is information on the course including the needs, beginnings, framework of basic concepts with a multisensory approach, and course objectives. Reports the data showing student success. (YP)

Presented is the position that the only goal for nonscience majors is scientific literacy, and that this goal can only be achieved through separate science courses for nonmajors. Two approaches to accomplish this and some issues of concern are examined. (KR)

Describes a Principles of Technology course as an innovative approach to teaching physics that does away will the hype and stigma that frightens off many potential students. (PR)

Describes two curriculum approaches used at a college as an alternative to traditional introductory science-survey courses. The first course is entitled "Nature of Science" and the second is "Current Research." (PR)

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)

Provides reasons for pursuing interdisciplinary study, reviews past interdisciplinary efforts, presents in detail a course model, and summarizes student and faculty reaction. (PR)

Describes a chemistry "pre-course" for students entering Rhode Island Junior College. The course is designed to introduce many basic scientific concepts deemed necessary before entering the first college chemistry course. (CS)

Presented are a list of topics and references for a course in which scientific theories and concepts are developed to explain the energy crisis. Using the suggested approach, students gain an understanding of scientific theories and concepts as they relate to current human problems. (DS)

Evaluates an educational program carried out at the Institute for Desert Research in Israel, to test the possibilities of the desert as an educational resource for ecosystem study. The results of teaching a field-oriented ecology course are presented. (HM)

Presents three dimensional models of biological pathways for the following cycles: carbon, nitrogen, sulfur, and a combination of the three. Discusses steps involved in each cycle and breaks each cycle into trophic and environmental regions. (MVL)

Describes an introductory biology course designed to enhanced the science learning of elementary education majors. A consideration of students' learning styles and interests combined with a belief that science academic talent is not a selective process, resulted in a biology course that was academically challenging and enjoyable for students. (ZWH)