A key aspect of learning in K-12 education is the idea that what students know and are able to do grows and evolves over time. Simple ideas learned in the early elementary grades gain levels of detail and complexity as students progress in their education. Connections between different topics and disciplines are made. Therefore, a key feature of…

The discovery of and research into penicillin resistance by Sir Edward Abraham and Sir Ernst Chain can be used to teach the concept of natural selection and also multiple nature of science (NOS) objectives associated with Next Generation Science Standards, such as "scientific knowledge is based on empirical evidence" and "science is…

We are in a period of unknowns unlike any in a generation or more. As educators, we need new pathways and ideas that can help us educate children for the world to come. "Reimagining the Classroom: Creating New Learning Spaces and Connecting with the World" provides practical steps and examples that parents and educators can use to begin…

Here's good news: With this practical book, you can learn from experienced elementary school educators about how to make physical science both challenging and accessible for a diverse range of students. Written by teachers for teachers, "Universal Design for Learning Science" will inspire you to reframe your lessons to reflect how…

This book is intended to offer college faculty members the insights of the development of reasoning movement that enlighten physics educators in the late 1970s and led to a variety of college programs directed at improving the reasoning patterns used by college students. While the original materials were directed at physics concepts, they quickly…

Amends the current 5E learning cycle and instructional model to a 7E model. Changes ensure that instructors do not omit crucial elements for learning from their lessons while under the incorrect assumption that they are meeting the requirements of the learning cycle. The proposed 7E model includes: (1) engage; (2) explore; (3) explain; (4) elicit;…

Describes open-ended experiments with seeds from the common garden radish (Raphanus sativus). The phases of the 5-E learning cycle--Engagement, Exploration, Explanation, Extension, and Evaluation--guide this activity series. (Author/MM)

Asserts that students' inaccurate prior knowledge in science can hinder the learning process. Presents instructional strategies for elementary and secondary school students that have been proved effective by research, such as augmented activation activities, refutational text, nonrefutational text, and the discussion web. (PRA)

Illustrates how knowledge of the ways children develop understandings of science subjects can be used to improve instruction. Probes students' problems in understanding excretion. Suggests that understanding can be promoted through strategies that build on students' existing knowledge, elicit conceptual development, and establishes meaningful…

Explains teaching methods and strategies to increase science learning among 3-6 year old children. (YDS)

Collecting "bugs" is an authentic, engaging approach for students to learn about various arthropods and their habitat. Students are able to construct knowledge from field notes involving direct observation, drawing, and classification of these animals. This activity has continuously provided successful measurable content outcomes in which students…

Suggests using activities from "Physics Resources and Instructional Strategies for Motivating Students" designed to promote student understanding of physics principles. The activities are part of a learning cycle in which student explorations of concrete phenomena precede the introduction or development of abstract concepts. (SAH)

Presents an inquiry activity with a learning cycle approach to engage students in testing their own hypotheses about how molecules move through cell membranes. Offers student materials and teacher materials, including teaching tips for each phase of the learning cycle. (Contains 11 references.) (ASK)

This guide is written for environmental educators who are interested in learning more about how and why young children think and act, and how they can use this information to design developmentally appropriate programs and activities. The sections of this guide become progressively more practical and specific from understanding the basics of how…

In order for students to experience science as scientists do, they must learn the skills of inquiry. This paper examines inquiry as a way of learning science and presents strategies to promote inquiry in teaching science. A model of progression of inquiry skills from grades K-2 to 3-5 is presented and the skills are aligned with the Massachusetts…