Socio-scientific issues (SSI) instruction positions the understanding and practice of science in the context of issues that are informed by science but require reasoning about their societal dimensions to respond to those issues effectively. For this reason, instruction in the context of SSI has been considered the gateway to contemporary visions…

Addressed is the current practice in educational reform of reducing time for science instruction in favor of traditional reading/language arts instruction. In contrast, presented is an evidence-based rationale for increasing instructional time for K-5 science instruction as an educational reform initiative. Overviewed are consensus…

The National Council of Teachers of Mathematics calls for an increased emphasis on proof and reasoning in school mathematics curricula. Given such an emphasis, mathematics teachers must be prepared to structure curricular experiences so that students develop an appreciation for both the value of proof and for those strategies that will assist them…

Science curriculum and instruction in K-12 settings in the United States is currently dominated by an emphasis on the science standards movement of the 1990s and the resulting standards-based high-stakes assessment and accountability movement of the 2000s. We argue that this focus has moved the field away from important philosophical…

Reports that young children in the pedestrian accident prone age range of four-eight years hold a variety of naive conceptions regarding speed. Proposes a primary science unit using a conceptual change approach. (MVL)

Discusses the nature, role, and limitations of analogies in science teaching, suggesting that they be discussed in the classroom to: (1) increase awareness of their limitations; (2) prevent misconceptions from occurring; and (3) encourage critical thinking. (JN)

Describes the Treisman model which involves supplemental workshops in which college students solve problems in collaborative learning groups. Reports on the effectiveness of Math Excel, an implementation of the Treisman model for introductory mathematics courses at Oregon State University over five academic terms. Reveals a significant effect on…

Develops a division algorithm in terms of familiar manipulations of concrete objects and presents it with a series of questions for diagnosis of students' understanding of the algorithm in terms of the concrete model utilized. Also offers general guidelines for using concrete illustrations to explain algorithms and other mathematical principles.…

The interdisciplinary and multidisciplinary curriculum at the experimental high school on the Sde Boker campus of Ben Gurion University in the Negev, Israel, is described. It is viewed as a worldwide model available to academic communities to study the impact of environment on survival of all living things. (MP)

Describes a lesson that provides an opportunity for students to obtain the equation for a line describing data they have collected, use the equation they have derived to set up an Egg Bungee Jump, and relate the numbers in the equation to the physical properties of the bungee jump. (WRM)

Discusses aspects of using anecdotes in the classroom including vividness, the downside, high inferential risks, and low inferential risks. Reviews research underpinnings. (MVL)

The activities of a teacher who developed and piloted an eclectic model in an eighth grade mathematics classroom are described. Peer tutoring, cooperative learning, and mastery learning elements were selected and combined into a classroom program designed to increase student mathematics success. (KR)

Described is a three-phase model for teaching problem solving to the middle school student. Phases include cue attendance, thinking aloud, and developing diagrams of steps to solutions. Because middle school students are in a transitional period in their cognitive processes, implementation of problem solving skills seems appropriate. (Author/DS)

Discusses six aspects of the Berlin-White Integrated Science and Mathematics Model developed to address the need for a definition of the integration of science and mathematics education. These aspects are ways of learning; ways of knowing; process and thinking skills; content knowledge; attitudes and perceptions; and teaching strategies. (MKR)

Describes and synthesizes the findings of 11 case studies which comprise the Exemplary Practice in Science and Mathematics Education Study. Reports four assertions in which exemplary teachers used strategies for management, encouraging students to participate, increasing understanding of science and math, and maintaining a favorable classroom…