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…

Guided inquiry is an instructional technique that requires students to answer a teacher-proposed research question, design an investigation, collect and analyze data, and then develop a conclusion (Bell, Smetana, and Binns 2005; NRC 2000). In this article, the authors describe a guided-inquiry lesson developed through the lesson-study process…

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…

Student attitudes can have a positive or negative effect on learning. According to Duschl, Schweingruber, and Shouse, "[students'] goals for science learning, their beliefs about their ability to do science, and the value they assign to science learning are likely to influence their cognitive engagement in science tasks" (2007, p. 195). Therefore,…

The law of conservation of mass can be counterintuitive for most students because they often think the mass of a substance is related to its physical state. As a result, students may hold a number of alternative conceptions related to this concept, including, for example, the believe that gas has no mass, that solids have greater mass than fluids,…

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…

Misconceptions are not simply factual errors or a lack of understanding, but rather explanations that are constructed based on past experiences (Hewson and Hewson 1988). If students' misconceptions are not directly engaged in the learning process, they may persist--even when faced with instruction to the contrary (Bransford, Brown, and Cocking…

With the publication of the National Science Education Standards and the Benchmarks for Science Literacy, people now have a thorough idea of what an inquiry-based teacher is, and what he or she needs to do within a classroom in order to be successful. However, one major barrier in learning how to become an effective inquiry-based science teacher…