Misconceptions about sinking and floating phenomena are some of the most challenging to overcome (Yin 2005), possibly because explaining sinking and floating requires students to understand challenging topics such as density, force, and motion. Two scientific principles are typically used in U.S. science curricula to explain sinking and floating:…

This article addresses misconceptions surrounding the Coriolis force and describes how it should be presented as a function within inertial and noninertial frames of reference. Not only does this demonstrate the nature of science as it strives to best interpret the natural world (and presents alternative explanations), but it offers a rich…

Although in some schools cell phones have to be turned off or perhaps kept in lockers to avoid misuse, the authors hope to demonstrate in this article how they can be used under supervision to assist learning. This ubiquitous device can be a powerful classroom tool. (Contains 2 figures.)

Using "hands-on" instruction in the science classroom has obvious value for both teachers and students. However, just because a type of instruction does not allow students to physically interact with objects does not mean it is not worthwhile. One method the author has found to be productive and engaging for students uses examples of historical…

During a recent unit on characteristics of animals in different environments, "backyard safari" trips around the schoolyard provided opportunities for students to describe ways that animals are adapted to their unique environments. This led to a discussion of how polar bears have adjusted to living in the arctic. Therefore, students' questions…

In the atmosphere or on the ground, snow provides students with unique opportunities to discover winter weather patterns. Traditionally, when students study weather, it is limited to the collection of data one would see on a weather report. However, the interdisciplinary Students Synthesizing Snow data in Natural Objective Ways (SSSNOW) project…

In order to fully understand student learning, we science teachers need to know the ideas that students bring into the classroom. Plus, good assessment calls for ongoing evaluation of students' progress and difficulties with learning on an everyday basis. Cartoons are one tool that has been used successfully as a means of assessing student…

Explosions and fires--these are what many students are waiting for in science classes. And when they do occur, students pay attention. While we can't entertain our students with continual mayhem, we can catch their attention and cater to their desires for excitement by saying, "Let's make rockets." In this activity, students make simple, reusable…

Storytelling is an age-old and powerful means of communication that can be used as an effective teaching strategy in the science classroom. This article describes the authors' experiences implementing the Storyline Approach, an inquiry-based teaching method first introduced by Kieran Egan (1986), in the context of teaching the concept of air…

Demonstrates how changes in air pressure cause air to move from one area to another causing wind. Includes an activity. (YDS)

Describes a demonstration of static charge using balloons and crystals to illustrate the electrical nature of matter. Building on the classic physics demonstration that uses pieces of paper and a plastic rod, this approach adds a new dimension of chemistry. Offers suggestions for how to discuss the observed phenomenon. (DLH)

Introduces a physics activity on buoyancy. Includes a list of materials and the procedure for the activity. (YDS)

Few things capture the spirit of spring like flying a kite. Watching a kite dance and sail across a cloud spotted sky is not only a visually appealing experience it also provides a foundation for studies in science and mathematics. Put simply, a kite is an airfoil surface that flies when the forces of lift and thrust are greater than the forces of…

All too often middle school students equate density with one object simply being "heavier" than another. Even if students are able to accurately calculate the density of an object, that doesn't necessarily mean that they fully understand the concept of density as the ratio of mass to volume. To help change this misconception and more fully…

In the activity described in this article, students will explore how variables in a first-class lever, specifically arm length, position of the fulcrum, and placement of the load, affect the effort needed to lift the load. To begin the lesson, demonstrate to the class how a first-class lever works and review what is meant by the terms fulcrum,…