Explains the Big6 model of information problem solving as a conceptual framework for learning and teaching information and technology skills. Highlights include information skills; examples of integrating technology in Big6 contexts; and the Big6 and the Internet, including email, listservs, chat, Web browsers, search engines, portals, Web…

States that recent research suggests that an education in theater beginning in kindergarten and continuing throughout the educational process can teach students valuable skills that will serve them well in the professional world, including problem solving, team work, and decision making. Discusses the program at Jefferson High School and its…

Explains the organization, structure, and assessment of the undergraduate course entitled Clinical Anatomy and Anatomical Skills. The course aims to refocus, vertically integrate, and revise the subject using problem-solving methods plus testing of various clinically relevant skills recorded in a logbook. This report re-emphasizes the importance…

Discusses the positive value of conflicts and describes a six-step program, Teaching Students To Be Peacemakers, that instructs students in how to negotiate and mediate conflicts. Reviews research on the effectiveness of the program and the benefits of self-regulation for school discipline programs. Provides steps on how to structure academic…

Describes the Interactive Mathematics Program (IMP), a four-year curriculum that teaches algebra, geometry, and trigonometry together in a problem-solving process emphasizing logical analysis, inference, and deduction. Because the program presents mathematics in real-world contexts, teachers need time for consultation and planning. (LMI)

This article describes a New Zealand elementary school that offers a Friday afternoon "options" class to allow all students the opportunity to solve real-world problems through the development of authentic products and services. One of the classes, an inventions class involving five students (ages 11-12), is discussed. (Contains 9…

Describes similarities and differences between modeling cycles and stages of development. Includes examples of relevant constructs underlying children's developing ways of thinking about fractions, ratios, rates, proportions, or other mathematical ideas. Concludes that modeling cycles appear to be local or situated versions of the general stages…

Maintains that technical communicators can retain their place on product development teams by re-engineering project environments. Describes an experiential learning strategy in project management to help technical communicators work with other information technology (IT) practitioners. Examines the solutions the teams produced for three projects…

Describes activities that present concepts and applications of artificial intelligence (AI) for elementary and secondary school students. The use of Logo with elementary students is discussed; appropriate software is described; programing activities using Logo, BASIC, and Prolog are examined; and the field of robotics is discussed. (four…

Discusses five strategies to use in creating an environment that will foster the development of critical thinking. To make thinking the subject of instruction; focusing on the key aspects of higher-order thinking; providing opportunities for continual, explicit practice; questioning and developing an investigative nature; and reinforcing the…

Discusses a teaching method for transforming timid, dependent students into self-propelling, independent problem solvers. Describes four guidelines: expose students to problems; pose good questions and pause; put chalk into students' hands; and emphasize teamwork. Eleven references are listed. (YP)

Discussion of the use of computer aided instruction (CAI) and instructional software in college level courses highlights an automatic problem generator, AUTOGEN, that was written for computer science students learning assembly language. Design of the software is explained, and student responses are reported. (nine references) (LRW)

Clarifies the relationship between oral reading accuracy and the ability to solve worded arithmetic problems using literature reviews. Discusses the implications of oral reading and lists eight guidelines for mathematics teachers. Thirty-seven references are listed. (YP)

Discusses solving inequality problems involving linear programing. Describes the usual and alternative approaches. Presents an intuitive approach for finding a feasible solution by maximizing the objective function. (YP)

Identifies and describes three steps where connections between written symbols and understandings can be made: (1) developing meaning for symbols; (2) developing meaning for rules; and (3) checking the reasonableness of solutions. (YP)