The lessons many students learn in traditional school curricula are too removed from the problems they encounter in daily life to be useful. One tool that can be used in the classroom to help students analyze and understand the consequences of events, decisions, and scientific and technological innovations or developments is the futures wheel (Wagschal and Johnson, 1986). This article describes how students can use the futures wheel to analyze analyze science-related social issues and consequences in preparation for decision making.

The Idea Bank provides tips and techniques for creative teaching, in about 1,000 words. This month’s Idea Bank includes an analogy for understanding electron configurations, information on electronic mailing lists, along with a listing of some useful listservs and bulletin boards on the Internet, and some tips on the use of a digital watch for timing activities.

In a final class project, art and communications students taking science and mathematics courses at Chicago’s Columbia College and the Illinois Institute of Art produce a significant creative work using a media of their own choosing. In this article, the authors explain the approach, discuss various assessment techniques and the underlying philosophy behind student final projects, and give examples of final projects that successfully integrate various areas of science and mathematics.

In this column the leadership of SCST shares its views with JCST readers. This article's focus is on the new millennium which establishes a natural marking point for change. Reflection on the last 10 years might give some insight into the direction we will follow.

As teachers make the transition to inquiry-centered science, they discover a need for new assessments. In response to this need, a group of 125 elementary teachers embarked on a three-year investigation of science assessment. This project was a component of the professional development provided by the Partnership for Systemic Change, which includes the Rahway, Linden, and Readington Township Public Schools in New Jersey; the North Penn School District in Pennsylvania; and the Merck Institute for Science Education. The following examples include assessments that teachers designed to determine whether students were achieving the K–4 earth materials standards.

K–12 teachers, who sometimes know more about teaching and learning than college professors, can be a great source of information about effective teaching strategies. This paper presents a synopsis of typical K–12 experiences that college educators can emulate, from taking risks in the classroom to participating in teaching workshops to joining support groups or institutional teaching centers.