Imagine handing out assessments that spark enthusiasm rather than dread. In six easy-to-follow steps, this book empowers science teachers to create tasks that guide students to use their knowledge, not just memorize facts. The NGSA design process transforms assessments into valuable classroom tools that teachers can use to chart how students'…

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…

This edited volume presents innovative current research in the field of Science Education. The chapter's deal with a wide variety of topics and research approaches, conducted in a range of contexts and settings. Together they make a strong contribution to knowledge on science teaching and learning. The book consists of selected presentations from…

One of the biggest challenges in the early weeks of the new school year is to keep learning interesting and the students engaged as routines and procedures are established and reinforced. How can a classroom teacher make the routines and procedures engaging and educational, while building a community of learners? The answer is simple... build a…

In this study we compare university teachers' and first-year students' conceptions of teaching and learning at the Faculty of Environmental and Biological Sciences. The conceptions were analysed using data from open-ended questionnaires. The results showed that at the beginning of studies the gap between teachers' and students' conceptions of…

Learning is most effective when the scientific context used in the classroom is a transformed extension of the students' real world and so inspires students' intrinsic motivation, encouraging students to ask meaningful questions and seek their own answers through an inquiry or investigative approach. The Student Owned Learning Model (SOLM)…

"Watch out, the stove will burn you," "Ooh, ice cream headache!" Students construct their conceptions about heat and temperature through their own intuitions about daily life experiences. As a result, misconceptions can be born from these constructed concepts. The activity described here addresses student misconceptions about thermal insulation…

In order to develop successful teaching approaches to transformations of matter, we need to know more about how young students develop an understanding of these processes. In this longitudinal study, we followed 25 students from 7 to 13 years of age in their reasoning about transformations of matter. The questions addressed included how the…

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…

Engineering education in K-12 classrooms is a small but growing phenomenon that may have implications for engineering and also for the other STEM subjects--science, technology, and mathematics. Specifically, engineering education may improve student learning and achievement in science and mathematics, increase awareness of engineering and the work…

Nature journaling is a useful skill for science students, independent of whether they also consider themselves artists. A pencil and sketchbook can be carried anywhere to record ecological information in many ways. A traditional page in a nature journal may consist of quick studies of plant and animal life sketched out as rudimentary line drawings…

The science learning cycle developed by Robert Karplus and others in the 1960's has been a useful model for many science teachers and researchers. This model stresses the use of structured inquiry to organize knowledge acquisition and problem solving. Recent research in the cognitive science tradition, however, has shown that learning and problem…

Scientific inquiry reflects how scientists come to understand the natural world, and it is at the heart of how students learn. From a very early age, children interact with their environment, ask questions, and seek ways to answer those questions. Understanding science content is significantly enhanced when ideas are anchored to inquiry…

What is science for a child? How do children learn about science and how to do science? Drawing on a vast array of work from neuroscience to classroom observation, "Taking Science to School" provides a comprehensive picture of what we know about teaching and learning science from kindergarten through eighth grade. By looking at a broad range of…

Describes a curriculum development project in which the Science Education Center of the University of Oklahoma and the science department of Norman (Oklahoma) High School prepared and classroom tested complete courses in biology, chemistry, and physics using the learning cycle principles of exploration, conceptual invention, and discovery. (JN)