When exploring and introducing sound, students need to understand that there are multiple aspects that work together to create sound. In this single class lesson, students work through an inquiry-based challenge to discover how sound can be manipulated and altered through these elements. By investigating how to manipulate sound, students are able…

Although the "Next Generation Science Standards" (NGSS) have three dimensions, the crosscutting concepts are often the forgotten dimension. One reason teachers may not emphasize the crosscutting concepts might be because they are broad, domain-general constructs that can be difficult to conceptualize in a meaningful way. Yet, when taught…

Students in the intermediate grades love to talk--but not necessarily about making sense of what they are learning. How do teachers design classrooms that cultivate productive discourse? How do they get out of the way and teach children to learn? First, let's give them something to talk about. Second, teachers need to teach them how to engage in…

In this article the authors describe a model that starts from the basics of the OWL (observe, wonder, learn) large-group discussion strategy then moves onto new experiences that serve as the jumping off point for student-generated questions and investigations. The OWL version of a KWL (Know-Want to Know-Learn) process becomes a path to language…

Crossroads Elementary School in Saint Paul, Minnesota, was designed and built physically and pedagogically with an "Inquiry Zone" located in the heart of the school. This collection of 80 learning centers provides a pathway for all students to pursue their own scientific interests. In this article, the authors describe the background and…

This article describes a lesson rooted in "tinkering," an approach to learning that encourages the use of authentic, hands-on experience to develop an understanding of content and physical materials. There were several desired outcomes for this lesson. First, the authors felt that tinkering was an appropriate approach to investigating…

By bringing everyday phenomena into the classroom, teachers can more readily engage students in authentic scientific inquiry. When working with young children, the best phenomena are those that students can directly experience and investigate. Meaningful phenomena can be identified by watching children at play, listening to the conversations they…

Scientists must interpret and produce visuals in their work. Scientists also use visual information to communicate their findings to the general public. Visual representations are used in science because of the abstract nature of scientific information as many concepts are unable to be seen with the naked eye. The current educational climate…

As part of the "Next Generation Science Standards" (K-LS1-1), students are expected to develop an understanding of what living things need in order to live and grow. The lessons provided in this article help students understand the difference between living and nonliving things, and help them acquire important background knowledge to…

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…

Engaging students in conversations around science and engineering design can be challenging. Sparking such conversations during field trips at an interactive science center has additional challenges. First, students vary considerably in age from day to day: science center employees might work with first graders one day and sixth graders the next.…

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…

Teachers have the daunting task of preparing students for a future that they cannot predict. In an age of information where students have the world quite literally at their fingertips, and with the ever-growing momentum of integrated science, technology, engineering, and mathematics (STEM), it is not enough that students experience STEM subjects…

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…

One of the guiding principles highlighted in "A Framework for K-12 Science Education" (NRC 2012) states that "children are born investigators," claiming that students construct their own understanding of the natural world even before they learn about it in formal learning settings. Even if students lack a thorough…