The Reggio-inspired approach often leads a teacher down unexpected paths, as many class explorations originate from students' observations of problems or phenomena. Students then work collaboratively with the teacher; the teacher consistently observes and questions the students to discover what the students are thinking and why. The teacher…

This column presents ideas and techniques to enhance your science teaching. This month's issue shares information about trying (again) to engineer an egg package. Engineering is an essential part of science education, as emphasized in the "Next Generation Science Standards" (NGSS Lead States 2013). Engineering practices and performance…

The authors conducted a test to determine whether they could incorporate a discovery box into a preschool setting was successful. It stimulated the students' natural inquiry processes while promoting understanding of healthy foods and allowing for practice of fine-motor skills. It was easily incorporated into the curriculum and classroom space.…

It's no secret that many school programs don't give children enough opportunity to explore the natural world--i.e., to "mess about" and to have firsthand experience with nature and animals. Not so at the Muscota New School in New York City! This innovative public elementary school actively promotes inquiry-based learning and encourages…

Members of a team of educators and university students participating in the project, Pittsburgh Partnership for Energizing Science in Urban Schools, addressed the issue of helping students develop investigative skills within the context of an introductory science unit for fourth graders. The unit focuses on data-collection techniques and is a…

Integrates guided reading into the science curriculum to promote inquiry-based, hands-on learning. Describes the components and instructional strategies for a guided-reading lesson model and presents example activities. (YDS)

Presents an argument for inquiry-based activities and defines science as talking to the material world. Discusses the notion that a hands-on activity is an inquiry-based activity only if a dialog with the material world takes place. (DDR)

Presents a program for elementary teachers to learn how to use hand tools and household appliances to teach the principles of physics. The lesson helps teachers become familiar with simple hand tools, combat the apprehension of mechanical devices, and develop an interest in tools and technology. Session involves disassembling appliances to…

In this article, the authors present hands-on activities and demonstrations using readily available materials that help students learn how to prevent soil erosion. With this series of active-learning exercises, the students will be able to practice scientific inquiry while learning about soil as a valuable resource. After demonstrations on the…

Describes opportunities for inquiry-based science learning which can be found in a picture, a set of comparative data, a table, an article, or a phenomenon that illustrates a space/time relationship. Provides a general model of inquiry. (RT)

Indicates the inadequacies and limitations of traditionally written elementary science textbooks. Offers suggestions and provides examples for teaching more accurately and experientially the nature and process of science. Identifies several sources for enrichment of the textbook. (ML)

This article presents how Developmental Approaches in Science, Health and Technology (DASH) summer institute sparks the author to try and succeed in using inquiry with her young students. It is a program created by the Curriculum Research and Development Group, University of Hawaii, and funded in part by the National Science Foundation. DASH is an…

Presents the following guidelines to consider before, during, and after hands-on inquiry: (1) plan and prepare; (2) create problem intrigue; (3) give students the responsibility of solving the problem; (4) offer feedback and guidance; (5) debrief; and (6) anticipate, prevent, monitor, and adapt. (PR)