Learning science is language intensive. Students might have to interpret the meaning of models, support claims with evidence, communicate arguments, and discuss phenomena and scientific principles. For English Language Learners (ELLs), engaging in scientific and engineering practices includes additional challenges. This article describes a series…

The curriculum module described in this article addresses the global issue of ocean acidification (OA) (Feely 2009; Figure 1). OA is a harmful consequence of excess carbon dioxide (CO[subscript 2]) in the atmosphere and poses a threat to marine life, both algae and animal. This module seeks to teach and help students master the cross-disciplinary…

Modeling is one of the scientific practices featured in the "Next Generation Science Standards" ("NGSS") (Achieve Inc. 2013). This practice is central to the work of science because modeling activities can prompt new questions for investigation, which, in turn, can lead to evidence and information that can be incorporated into…

For students to be successful in STEM, they need "statistical literacy," the ability to interpret, evaluate, and communicate statistical information (Gal 2002). The science and engineering practices dimension of the "Next Generation Science Standards" ("NGSS") highlights these skills, emphasizing the importance of…

Of the eight practices of science identified in "A Framework for K-12 Science Education" (NRC 2012), helping students develop and use models has been identified by many as an anchor (Schwarz and Passmore 2012; Windschitl 2012). In instruction, disciplinary core ideas, crosscutting concepts, and scientific practices can be meaningfully…

Research Experiences for Teachers (RET), funded by the National Science Foundation, offer teachers an opportunity to participate in current, hands-on scientific research in laboratories across the United States. These experiences provide an avenue for teachers to understand the process of research and gain insight on emerging technologies with the…

The February 2005 issue of The Science Teacher (TST) reminded everyone that by learning how scientists study stars, students gain an understanding of how science measures things that can not be set up in lab, either because they are too big, too far away, or happened in a very distant past. The authors of "How Far are the Stars?" show how the…

Describes a set of computer-based learning modules designed to teach nonscientists to think and reason like scientists. Discusses the intent of the 10 dialogs in this series. Gives ideas for use in science classes. (CW)

Presents positive aspects of lesson design models in science instruction. Rebukes arguments made within an accompanying article that argues against lesson design models. States that lesson designs, if correctly viewed as planning guides, are always valuable in science teaching. Mentions an unnamed study that provides evidence of the effectiveness…

Argues against the forced use of generic lesson design in science instruction. Asserts that teaching modules are popular among administrators because they seem to provide accountability. However, modules often promote traditional ideas in teaching, and administrators seldom investigate claims of programs. Critiques research cited by the Hunter…

To help students learn science concepts, Pharmacology Education Partnership (PEP)--a science education program that incorporates relevant topics related to drugs and drug abuse into standard biology and chemistry curricula was developed. The interdisciplinary PEP curriculum provides six modules to teach biology and chemistry principles within the…

Ecological studies that examine how organisms interact with their environment provide a particularly useful backdrop for high school students to both quantitatively and qualitatively explore the natural world. In Hot Springs, South Dakota, the authors developed a module that integrated modern ecological theory within an American Indian cultural…