Are you interested in helping your elementary students learn the practices of science, including constructing explanations and engaging in argument from evidence? "Argument-Driven Inquiry in Fifth-Grade Science" will provide you with both the information and instructional materials you need to get started right away. The book is a…

Discover how to effectively incorporate literacy instruction into your middle or high school science classroom with this practical book. You'll find creative, inquiry-based tools to show you what it means to teach science with and through writing, and strategies to help your students become young scientists who can use reading and writing to…

One way to help students understand the scientific inquiry process, and how it applies in investigative research, is to involve them in scientific investigation. An example of this would be letting them come to their own understanding of how different variables (e.g., starting products) can affect outcomes (e.g., variable quality end products)…

Building a website allows students to find and evaluate resources, pose and answer scientific questions, and connect class content to real-world problems and possible solutions. Writing explanations for a particular audience, instead of only the teacher, requires students to state concepts clearly, leading to increased comprehension. Finding the…

The Bold Fold, which is presented in this article, is a 45-minute activity in which students create a protein model while learning the processes of transcription, translation, protein folding, and delivery, which are often difficult to understand and have led to common misconceptions (Wright, Fisk, and Newman 2014). This activity has been used…

What is it really like to plunge into the world of science learning and teaching? Find out in this unique book. "Dive In!" grew out of a teacher-scientist project at the University of New Hampshire that promoted active learning and using science practices in the classroom. That experience yielded this book's reason for being: to provide…

Learn to use inquiry-based practice to inspire young minds through science. This book gives educators a solid guide for using research-based principles of inquiry to help children explore their world. With real-life examples and information on facilitating and guiding children, you will be able to engage and maximize STEM learning. Web content and…

The experience that students gain through creative thinking contributes to their readiness for the 21st century. For this and other reasons, educators have always considered creative thinking as a desirable part of any curriculum. The focus of this article is on teaching creative thinking in K-12 science as a way to serve all students and,…

Across the United States, political leaders, educators, and business persons are issuing an urgent call for reform in STEM education (NGSS Lead States 2013). One important response to this call is Integrated STEM, which the National Governor's Association (2007, p. 7) says involves, "... an emphasis on design and problem solving in…

Evolution is a unifying concept within biology. In fact, Dobzhansky, a noted evolutionary biologist, argued, "Nothing in biology makes sense except in the light of evolution" (Dobzhansky, 1973). However, often students have misconceptions about evolution. There are a number of available activities where students use tools (representing…

What if you could challenge your 11th graders to figure out the best response to a partial meltdown at a nuclear reactor in fictional Gammatown, USA? With this volume in the "STEM Road Map Curriculum Series," you can! "Radioactivity" outlines a journey that will steer your students toward authentic problem solving while…

Engaging students in elementary science is often done within the confines of the classroom. Citizen science projects, however, bring students, families, teachers, and communities together to help scientists with their research. Students become active participants in real research, use their three-dimensional understanding of science, and…

This paper examines the process of high school students' planning investigations in the chemistry laboratory across two consecutive academic years in terms of their actions and their progress. The context is a set of five inquiry-based laboratory tasks in which participants (9th and 10th graders, 14-15 and 15-16 years of age) are required to plan…

The "Next Generation Science Standards" (NGSS) challenges science teachers to think beyond specific content standards when considering how to design and implement curriculum. This lesson, "Windmills by Design," is an insightful lesson in how science teachers can create and implement a cross-cutting lesson to teach the concepts…

We present a hands-on outdoor activity coupled with classroom discussion to teach students about wildlife habitat selection, the process by which animals choose where to live. By selecting locations or habitats with many benefits (e.g., food, shelter, mates) and few costs (e.g., predators), animals improve their ability to survive and reproduce.…