Previous articles in "Primary Science" have presented a range of ways to teach electricity in engaging and informative ways (e.g. Buckley and Harvey, 2014; Chapman, 2014; Norman, 2014; CLEAPSS, 2016) and Frank Harris provides an interesting historical account of the development and use of batteries in "School Science Review"…

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…

In this article, Amanda Poole looks at how the science capital teaching approach can be used to build science capital when teaching electricity in primary schools. The science capital teaching approach is a reflective framework that builds upon good practice in the classroom. The teaching approach builds upon a foundation of "broadening what…

As every elementary teacher knows, an elementary classroom is a busy place. While literacy and mathematics command the majority of hours of the school day, many schools are left with an inadequate amount of time to devote to science. In an urban district, students in grades K-5 receive a mere 30 minutes a day for science and social studies. There…

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…

Any teacher of elementary physics can attest to the waning interest of students when all they are exposed to are boxes sliding down planes. In an effort to motivate interest, it is often useful to borrow examples from the real world. This way the students find it easy to identify the relevance of the subject matter. In addition, high-tech…

From the earliest days of their lives, children are exposed to all kinds of sound, from soft, comforting voices to the frightening rumble of thunder. Consequently, children develop their own naïve explanations largely based upon their experiences with phenomena encountered every day. When new information does not support existing conceptions,…

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…

One of the most powerful strategies to support next generation science instruction is the use of instructional models. The Biological Sciences Curriculum Study 5E (Engage, Explore, Explain, Elaborate, and Evaluate) instructional model is arguably the most widely used version of a learning cycle in today's classrooms. The use of the 5Es as an…

Art and science help students investigate light energy and practice fair testing. With the goal of finding a way to save "Beady Kid" from invisible rays, students used science practices to investigate the transfer of light energy from the Sun. During this art-integrated science lesson presented in this article, upper elementary (grades…

Traditionally, electricity and circuits are taught using alligator clips, lightbulbs, batteries, and wires. Although these circuits engage students in building, they don't always provide opportunities for students to deeply explore energy, electricity, polarity, and circuitry. Multimedia Circuits is a curricular unit made up of three projects that…

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…

Electricity can be a fun topic in a primary school class. It includes many practical experiments and links to real life contexts. However, teachers can feel daunted by the subject as they think they do not know enough about the science behind it to answer off-topic questions. The reason for the difficulty is that much of the science takes place…

Teaching children about circuits and the way electricity works is a "tricky business" because it is invisible. Just imagine all eyes are on the teacher as he or she produces for the class what looks like a ping-pong ball and then, with a wave of their hand, the incredible happens! This wonderful white sphere begins to glow red and a…