The "big bad wolf" chased the squealing children around the playground as they looked for a place to hide. Because Mr. Lòpez and Ms. Kim had introduced the work of engineers and the engineering design process into their unit on The Three Little Pigs, they knew their preschool students would choose a structure that could withstand any…

The "Next Generation Science Standards" ("NGSS") have placed an emphasis on the incorporation of engineering practices into K-12 science instruction. This article details a sequence of physical science lessons that would be part of teaching matter in the second-grade classroom. The goals of these lessons are: (1) to be hands-on…

This article describes an unit that was created for first-grade students using both the "Next Generation Science Standards" ("NGSS") and Science, Technology, Engineering, and Mathematics (STEM) in a student-centered, problem-based approach. The multifaceted classroom unit combined with a take-home field study provides students…

Dramatic inquiry is a teaching approach where students explore science through differentiated learning experiences, so that students can engage in learning in multiple ways (e.g., through gesture, song, written and spoken language). It positions students as competent problem solvers and draws upon students' strengths through collaborative learning…

Picture this: a PhD chemist, PhD science educator, and a preservice Latina elementary educator walk into an aftercare program for primary and intermediate students from a rural school. These students are identified as low income and at risk and therefore eligible to participate in this school-provided aftercare. While across the state, these same…

Creative thinking is important to scientists and engineers as they frame their work and engage in the practices of their fields. Elementary-age children need opportunities to think about and develop an idea from its inception through to its conclusion to expand their thinking and engage in scientific processes. Generating and expanding on ideas…

Science centers can engage students; accommodate different learning styles and individual interests; help students become independent and confident learners; and encourage social skills among students. In this article, the author worked with third-grade students as they completed activities at learning centers during a week-long unit on simple…

Describes various elementary school activities using a loaf of raisin bread to promote inquiry skills. Activities include estimating the number of raisins in the loaf by constructing histograms of the number of raisins in a slice. (MLH)

Discusses the fact that when the materials or interactions used as a basis for a science activity posses a high degree of familiarity, the student may rely on past experience rather than on gathering data to use in making judgments. In such cases, a simple request for observed evidence should be made. (MLH)

Suggests the technique of brainstorming, in which a group generates spontaneous thoughts regarding how something might be used or how a problem might be solved, as a valuable way to help elementary school children learn science. (JR)

Describes a consumer science fair to help students develop problem-solving skills and become savvy consumers. (MKR)

Discusses an elementary school Design Lab in which students construct musical instruments with little intervention from the instructor. Describes some problem solving situations which arose during the activities, and which provided experience in developing computational and reasoning skills. (MLH)

Explains how a Forensic Science and Criminology unit can help in the development of science process skills, mastery of laboratory techniques, and assist in value clarification. Examples of investigations and activities that have been successful with fifth- and sixth-grade students are included. (ML)

Describes how to build a classroom museum developed by students to provide an ongoing learning experience. Offers tips on generating ideas through class discussion, assigning facilitating roles associated with museums, developing exhibits, including interpretation, and sharing the museum with others. Students who have created their own museum…

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)