It is well established that drawing upon students' Funds of Knowledge (FoK) supports powerful learning outcomes, especially for youth whose life experiences are not always valued in dominant classroom spaces. Yet, teachers can struggle to find ways to do so (Gonzalez, Moll, and Amanti 2005). In this article, the authors introduce an…

The "Next Generation Science Standards" call for engaging students in practices that scientists and engineers use (NGSS Lead States 2013), but it's also important to explicitly teach thinking approaches that scientists and engineers use. One way to help children think and act like scientists and engineers is to engage them with…

Scientists' writing includes organized data, calculations, sketches and models, inventories and lists, timelines, detailed descriptions, locations, conditions, actions, schedules, information about variables, goals, hypotheses, research, notes, summaries of experiments, and reports to others (Fulton and Campbell 2014). By using scaffolded science…

This article explores how Ms. Ford, a first-grade teacher, integrated literary tools to engage students in higher-level thinking and meaning making. Through the use of teacher talk, eliciting responses, asking for clarity, and expanding on student responses, she utilized discourse to support students in making meaning. Ms. Ford's first-grade…

This column provides background science information for elementary teachers. This month's issue helps teachers to understand color mixing so that they can teach this information to students.

This column provides background science information for elementary teachers. This month's issue discusses electromagnetic waves.

Many students find it easier to express their ideas about science through talking rather than writing. However, writing in science promotes new learning, helps students consolidate and review their scientific ideas, and aids in reformulating and extending their scientific knowledge. These practices lead to formulating and defending scientific…

December brings the winter solstice, the day with the shortest amount of sunlight for the northern hemisphere. Students can notice the pattern of days getting darker earlier across the United States up to this point and then notice as the amount of sunlight starts to increase in the following months. Through making observations and collecting data…

Conceptually, students are typically introduced to light as a type of wave. However, children struggle to understand this model because it is highly abstract. Light can be represented more concretely using the photon model. According to this scientific model, light emanates from sources as tiny "packets" of energy (called "photons") that move in…

In this article, the authors present a new way of teaching the phases of the Moon. Through the introduction of a "self shadow" (an idea of a shadow that is not well-known), they illuminate students' understanding of the phases of the Moon and help them understand the distinction between the shadows that cause eclipses and the shadows that relate…

In sixth grade, students understand that Earth gets visible light from the Sun, but students may also believe the Earth gets heat from the Sun. This last part is incorrect because the Sun is too far from the Earth to heat it directly. So, how does the Sun heat the Earth? When light strikes an object, it can be reflected or absorbed. Absorbed light…

Presents a lesson that introduces students to polarized light using a problem-solving approach. After illustrating the concept using a slinky and poster board with a vertical slot, students solve the problem of creating a polarized light show using Polya's problem-solving methods. (MDH)

To discover how misconceptions occur and how teachers deal with them when they occur, fifth-grade students (N=229) and teachers (N=14) were observed during units on light and photosynthesis. Results suggest that curriculum developers consider childrens' misunderstandings of phenomena and design materials explicitly contrasting these…

This article describes the light-based science circus the authors developed and tested with a fifth-grade class at Blackwell Elementary School in Richmond, Virginia. A science circus is a set of activities done in any order that together illustrate complementary properties of a science topic. As in a traditional circus, several "performances"…

Presented are directions for making a flexible lens that can be used by students to show the bending of light rays. Diagrams are included for supplementing the activities. (KR)