An important goal of science education is for students to understand the nature of science. Science education has raised the question of what science is, how scientific knowledge is developed and how people participate in this process under the conceptual umbrella of 'nature of science' (NOS). This study aims to look at the effectiveness of the…

Kindergarteners have plenty of opportunities to discover and investigate cause and effect in their own lives and in all subject areas. If it rains, they may not be able to go outside for recess. If they pump harder on the swing, the swing will go faster and higher. In science, they may investigate pushes and pulls; discover how exposure to…

Children are natural scientists full of curiosity. This curiosity allows them to ask questions about and to investigate their surroundings. Since science is not just a collection of facts to be learned, but rather investigations that need to be made, teachers should encourage that natural curiosity in the classroom. Luckily, the "Next…

Dynamic inquiry learning emphasizes aspects of change, intellectual flexibility, and critical thinking. Dynamic inquiry learning is characterized by the following criteria: learning as a process, changes during the inquiry, procedural understanding, and affective points of view. This study compared the influence of open versus guided inquiry…

Presents a demonstration that attracts and then repels soap bubbles to a Van de Graaff generator. Discusses theory and describes the event that led to the development of this demonstration. (JRH)

Uses the action of a lever as an example to illustrate inductive and deductive procedures in teaching elementary school science. (JR)

Modern science programs introduce more than scientific knowledge. They also encourage active student participation in the processes of scientific investigations. However 11 to 13 year olds generally lack the motivation to initiate such investigations. This is partly due to a logical conflict between learning and discovering. What is learned is…

Argues that more attention should be given to teaching students how to learn the rudiments of specific metabolic pathways. This approach describes a unique way of learning the glycolytic pathway in stepwise fashion. The pedagogy involves clear rote components that are connected to a set of generalizations that develop and enhance important…

Many new directions for science teaching were developed during the post-Sputnik era. Hands-on science teaching remains a popular direction, yet may be seen as something complex or mysterious by those not familiar with some of the jargon which usually accompanies any discussion of science teaching. This paper responds to several questions teachers…

THE REVOLUTION IN THE ORGANIZATION AND STRUCTURE OF THE SUBJECT MATTER OF SCIENCE AS TAUGHT IN THE SCHOOLS MUST NOW BE MATCHED TO ANOTHER REVOLUTION IN EDUCATION--THE TECHNOLOGICAL CLASSROOM. CURRICULUM REVISION MUST BE MADE WITH A VISION OF WHERE THE CLASSROOM MAY BE HEADED IN THE FUTURE. THE TRADITIONAL, THE TRANSITIONAL, AND THE TECHNOLOGICAL…

Describes the teacher's guide made up of 125 student activities encompassing 1 year of high school physics instruction called Physics Resources and Instructional Strategies for Motivating Students (PRISMS). The learning cycle of each activity includes three phases: exploration, concept introduction, and concept application. Provides exploration…

Chapter I provides a rationale for teaching science to young children; Chapter II discusses various ways children can learn science concepts; Chapter III gives suggestions on collecting and making materials and equipment, arranging the science area, planning outdoor learning, making science experiences happen, asking questions, etc. Chapter IV…

Describes a self-managed learning approach designed to help engineering students take charge of their own learning. Discusses marker events, exploratory learning versus linear instruction, knowledge through self-discovery, information retrieval, production through writing and speaking, and promoting a mature response. (TW)

Reports on a study to determine the interaction effects of selected personality characteristics, science achievement, and two classroom climates, one which encouraged discovery learning and one that did not. Demonstrated that student achievement is influenced by dynamic interactions within classrooms. (TW)

This paper explores how two teachers concurrently enacting the same technology-based inquiry unit on evolution structured activity and discourse in their classrooms to connect students' computer-based investigations to formal domain theories. Our analyses show that the teachers' interactions with their students during inquiry were quite similar,…