Uses poems incorporating mathematical terms to help students apply their knowledge of mathematics to another field and give evidence that what they had learned had become a useful and easily accessible part of their general experience. Includes assignment sheets. (KHR)

Presents four methods for solving a quadratic equation using graphing calculator technology: (1) graphing with the CALC feature; (2) quadratic formula program; (3) table; and (4) solver. Includes a worksheet for a lab activity on factoring quadratic equations. (KHR)

Examines problem-based learning and suggests advantages and disadvantages of this method of instruction. Looks at barriers to implementation and the changes in teachers' role and adjustments needed for assessment. Includes implications for family and consumer sciences educators. (Contains 27 references.) (JOW)

Describes four learning characteristics that make learning and doing mathematics difficult for students with special needs. Discusses instructional strategies that make learning and doing mathematics attainable for these students in the context of a vignette based on real-life experiences. (YDS)

Discusses examples from research of how students' misconceptions underlie their difficulties in interpreting kinematics graphs, possible underlying causes, and promising remedies. (KHR)

Explores why it is impossible to make a square from six tangram pieces and, in the process, develops insight into the nature of learning mathematics as well as strategies for teaching. (YDS)

Describes an educational game in which students get the opportunity to review Lewis structures and molecular geometries through problem solving activities as a team. (YDS)

Describes a beginning algebra course that places stronger emphasis on learning to solve problems and introduces topics using real world applications. Students learn estimating, graphing, and algebraic algorithms for the purpose of solving problems. Indicates that applications motivate students by appearing to be a more relevant topic as well as…

Conventional instruction in critical thinking may ignore the creative and intuitive functions of rationality, thereby encouraging a mechanically rote approach to textual analysis, problem solving, and problem construction. Such an overemphasis upon logical "calculus of justification" functions has epistemological weaknesses and pedagogical…

Posits that historical details can lend credibility, spark interest, and establish context for elementary history instruction. Argues, however, that teachers must distinguish between factual details and major historical developments. Suggests textbooks, mastery learning pressures, and test construction practices contribute to the inappropriate use…

This paper was based on an investigation of how an officially prescribed science curriculum was interpreted and translated by teachers into actual classroom practice in Nigerian primary schools. Mismatches between official and hidden curricula were rampant and often beyond teachers' control. The teacher's role was "policy broker," not…

Discussed is the performance of college students on the task of solving chemistry problems involving Lewis structures. Difficulty of the task and of individual problems is described. A taxonomy of skills associated with Lewis structures is presented. (CW)

This article identifies physical, psychological, and social obstacles that may block students' thinking ability. Guidelines are provided to help teachers uncover and overcome hidden obstacles. A glossary of thinking skills terms is included. (IAH)

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)