Rarely are scientific phenomena isolated to a single discipline such as biology, chemistry, physics, Earth science, or others. Rather, these phenomena span multiple disciplines and often require bringing together content and understandings from multiple disciplines to engage with or explain the target phenomena. This study uses a model-based…

Three-dimensional science instruction advocates for classroom contexts that place equal emphasis on science content, crosscutting concepts, and science practices. This instructional change requires a shift away from content first approaches. Such a shift can be problematic for educators that insist that strong content understanding is necessary…

This study examines what students enrolled in the honors and general sections of a high school biology course offered at the same school learn when they have an opportunity to participate in a broad or narrow range of science practices during their laboratory experiences. The results of our analysis suggest that the students enrolled in the…

A "Framework for K-12 Science Education" (NRC 2012) and subsequent "Next Generation Science Standards" (Achieve Inc. 2013) will substantially influence the teaching and learning of science in the United States. The "Framework," for example, calls for students to learn about several practices related to scientific…

Are you interested in using argument-driven inquiry for middle school lab instruction but just are not sure how to do it? "Argument-Driven Inquiry in Physical Science" will provide you with both the information and instructional materials you need to start using this method right away. The book is a one-stop source of expertise, advice,…

Scientific argumentation is an essential activity for the development and refinement of scientific knowledge. Additionally, fostering argumentation related to scientific concepts can help students engage in a variety of essential scientific practices and enhance their science content knowledge. With the increasing prevalence and emphasis on…

Students need to learn how to engage in several scientific practices in order to be considered proficient in science. Many of these practices are needed to evaluate scientific claims made in the popular media. Yet, there are few instruments available that science educators can use to assess whether students can apply what they know about…

Are you interested in using argument-driven inquiry for high school lab instruction but just are not sure how to do it? You are not alone. This book will provide you with both the information and instructional materials you need to start using this method right away. "Argument-Driven Inquiry in Biology" is a one-stop source of expertise,…

The Generate an Argument instructional model was designed to engage students in scientific argumentation. By using this model, students develop complex reasoning and critical-thinking skills, understand the nature and development of scientific knowledge, and improve their communication skills (Duschl and Osborne 2002). This article describes the…

Argument-Driven Inquiry (ADI) is an instructional model that enables science teachers to transform a traditional laboratory activity into a short integrated instructional unit. To illustrate how the ADI instructional model works, this article describes an ADI lesson developed for a 10th-grade chemistry class. This example lesson was designed to…