Presents and examines two lesson excerpts in which different questioning techniques are used. (MKR)

With the encouragement of parents and teachers, many young people would raise more questions than they typically do about nature. Examples of questions about animals which might lead to creative, thought-provoking discussions and explorations are offered. (CB)

Examines the nature and use of open (divergent) questions with elementary school children. Includes the teacher's role, "think time," and the types of answers that students can be expected to give. (JN)

Presents a general theory of improvisation and its role in the teaching of science. Includes a definition of improvisation, a discussion of curiosity-motivated and logically motivated questions, and illustrative examples from physics. (JN)

This book identifies the teacher's role and provides guidance on the motivation of students, teaching strategies, questioning techniques, and the assessment of student learning for effective teaching. Chapters include: (1) "Why Science? What Science?"; (2) "Bringing Children and Science Together"; (3) "The Right Question at the Right Time" (Jos…

Describes introducing students to the chemical elements through the use of Tom Lehrer's recording of "The Elements" and through the use of the game "20 questions." By asking the teacher questions about an unknown element or compound, students are given opportunities to develop and practice analyzing, synthesizing, and…

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…

High-low sponges are short, science-related activities or questions that require students to analyze a situation or produce a new idea during extra time that otherwise would be wasted. (PR)

Suggests: (1) activities to enhance interest during observations of animals in the elementary science classroom; (2) possible questions to ask during these observations; and (3) sources for observing animals such as pet stores and farms, as well as bringing pets into the classroom. (DS)

Describes a teaching strategy, used in a high school physics class, based on a series of "what if" questions. (PR)

Presents an activity using logic mystery stories that students solve by asking yes-or-no questions. Helps students discover the reasoning behind good questioning and provides for practice with instant feedback from the teacher. Includes sample stories. (MKR)

Described is a course designed to teach the intellectual methods of science while also fostering the development of mature, critical, and skeptical thinking students. Discussed are the course syllabus, teaching philosophy and techniques, and observed results. (CW)

Discusses the role that children's ideas and questions have in learning science. Explains four techniques which aim to promote primary students' question-asking. Also suggests specific approaches that were developed in the Learning in Science Project to assist teachers in making use of children's questions. (ML)

A demonstration is described that encourages students to engage in inquiry in biology. Using chemicals and an overhead projector, the instructor can simulate a living organism projected onto a screen. The reaction can aid students in defining the characteristics of life. (SA)

Presents a study of four different teaching strategies dealing with comparing lower-level questions with higher-level questions and comparing feedback correctives with no feedback correctives. The lowest levels of achievement were in the class with low-level questions and no feedback correctives. (PR)