With the critical nature of socio-ecological challenges, the need to empower young people to generatively grapple with these science-related issues is crucial for developing their agentic citizenship. This paper reports on a primary science project that adopted a Socratic Seminar pedagogical strategy to enable student voice and collaborative…

Promoting problem-solving in students is an important aim of secondary science education. There is a mismatch, however, between the complex, ill-structured nature of realistic scientific problems, versus the well-structured problems students are generally confronted with. The current study investigates a teaching-learning strategy that resolves…

Analytical questions are the types of questions that can lead students to gain an understanding of a concept and explore reasoning. This research is a descriptive, qualitative study investigating the emergence of analytical questions and their interaction patterns in group discussions facilitated by a scientific approach to learning. The subjects…

Students enter classrooms equipped with a rich foundation of skills and knowledge from their everyday experiences. High-quality science education builds on students' wealth of experience in making sense of the world. In science classrooms, "sensemaking" is a collaborative practice that includes students sharing initial ideas with peers…

Research in science in early childhood is an area that has not received much attention (Fleer, M., & Robbins, J. (2003). "Hit and run research" with "hit and miss" results in early childhood science education. "Research in Science Education," 33, 405-431.) and it has been reported that early children teachers lack…

Educators know that creativity and innovation involve questioning and the capacity to frame topics as problems to be solved. They know that we are living in a time of a new generation of standards, including the Common Core State Standards (CCSS). In the U.S., compliance with these standards requires that educators encourage students to ask…

Mitochondria are surrounded by two membranes (outer and inner mitochondrial membrane) that separate two mitochondrial compartments (intermembrane space and matrix). Hundreds of proteins are distributed among these submitochondrial components. A simple biochemical/immunological procedure is described in this test to determine the localization of…

"A Framework for K-12 Science Education" identifies eight science and engineering practices for K-12 classrooms. These practices, along with core ideas and crosscutting concepts, define the nation's learning goals for science. The practices outlined in the framework are: (1) Asking questions and defining problems; (2) Developing and using models;…

Presents a position strongly advocating inquiry training in science for students at all levels, but particularly at the elementary level. (SL)

THE DEVELOPMENT OF AN INVENTORY OF SCIENCE PROCESSES INCLUDED THE DESCRIPTION OF A MODEL OF INQUIRY AND AN INSTRUMENT TO SAMPLE THESE INQUIRY BEHAVIORS OF ELEMENTARY SCHOOL STUDENTS. THE BEHAVIORS OF SEARCHING, DATA PROCESSING, VERIFYING, DISCOVERING, ASSIMILATING AND ACCOMMODATING WERE IDENTIFIED AS COMPONENTS OF THE MODEL OF INQUIRY. THE TAB…

Inquiry is defined here as the scientist's method of problem solving. Presents a bent wire phenomenon activity designed to engage students in the active process of solving a problem in science. A model is proposed to explain the phenomenon. (MA)

Introduces students to problem solving strategies in the form of step-by-step guides to follow in problem solving practice. Assumes that students could pinpoint the difficulty specifically using this guide, which would result in positive effects on students' recognition and expression of their own questions. Uses traditional and worksheet-based…

Details a study of secondary science teachers (N=8) and their questioning strategies. Identifies and describes commonly used teacher responses to student questions in the secondary science classroom. Contains 39 references. (DDR)

Describes a lesson that utilized inquiry to teach the students a scientific concept and to emphasize the fact that they shouldn't jump to conclusions. (LS)

Discusses different roles the problem statement can play in inquiry and some resulting classroom implications. (SL)