In this article, second graders learn the basics of engineering through an exploration of magnetic levitation (maglev) technology. The author designed and taught the lessons to a class of 26 students enrolled in a month-long summer science program. The maglev lessons took place over three mornings (15 minutes for the first lesson and 40 minutes…

A lot of the activities of daily living require energy, playing video games, making dinner, turning on the lights, using a computer, and perhaps even brushing our teeth requires energy. In this unit students discover what energy is, think about where it comes from, analyze options for making energy evaluate feasibility in different parts of the…

The purpose of this study is to explore third grade elementary students' Nature of Science (NOS) identities as a result of participating in a unit on electricity. The study took place in the context of a diverse third grade "at risk" (as identified by state regulations) classroom. Videotapes were made of all aspects of the electricity…

Units on static electricity and electrical charges are always a third-grade favorite, with students finding the inquiry and hands-on activities, well, electrifying. However, teachers planning a unit on static electricity may find it difficult to navigate around latex bans. While latex allergy is a serious issue, removing balloons from the…

Interactions with forces and energy can range from a toddler dropping toys repeatedly for someone else to pick up to a group of fifth graders playing soccer at recess. In addition, students may have observed the power of water to move physical objects by seeing news footage of rising floodwaters, experimenting with a garden hose, or spending a day…

What is the Sun? What effect does it have on the Earth? How do we protect ourselves from the Sun's harmful rays? These are a few of the questions the author wanted her kindergarten students to explore regarding the Sun and solar energy. Using the "Next Generation Science Standards" (NGSS) framework that notes kindergarten students should…

In its program of studies for preschool level, the Secretary of Public Education of Mexico promoted development of four standards of science: Scientific knowledge, applications of scientific knowledge and technology, skills associated to science, and attitudes associated to science. However, to develop this skills and reach out the standards there…

In a 2012 blog post, John Maeda discusses the idea that while science, technology, engineering, and mathematics (STEM) education plays an important role in innovation, limitations exist when we focus exclusively on STEM. Maeda advocates for the addition of the "A" for Art to the acronym, insisting that the arts promote the creativity and…

"Energy" is a term often used in everyday language. Even young children associate energy with the food they eat, feeling tired after playing soccer, or when asked to turn the lights off to save light energy. However, they may not have the scientific conceptual understanding of energy at this age. Teaching energy and matter could be…

This article concerns how teachers can use physical artefacts as mediating means to support emergent bilingual students' learning in science class. The data consist of non-participant observations in a Swedish 3rd grade (9-10 years old) class working with electricity. All students were bilingual, but in different minority languages and the teacher…

This paper presents a study of how preschool-aged children go about creating and operating a simple electric circuit (wires, light bulb, and battery), and how they view the elements that comprise it, particularly how they view the role of the battery. The research involved 108 children aged between five and six, who were individually interviewed.…

Energy is considered both a core idea and a crosscutting concept in science education. A thorough understanding of the energy concept is thought to help students learn about other (related) concepts within and across science subjects, thereby fostering scientific literacy. This study investigates students' progression in understanding the energy…

This issue explores the nature of childhood by offering selections that re/imagine the idea of the child as art maker; inquire about the relationships between children and adults when they are making art; and investigate how physical space influences approaches to art instruction. Readers are invited to join a dialogue that questions long-standing…

As environmental changes become a significant societal issue, elementary science curricula need to develop students' understanding about the key concepts of energy and climate change. For teachers, developing quality learning experiences involves establishing what their students' prior understanding about energy and climate change are. A survey…