Are makerspaces--where children can create gas-powered Roman chariots, singing greeting cards, or playdough circuit boards--just the site for a slightly wacky explosion of inventiveness? Or can these maker activities be channeled to support deep STEM learning? Bronwyn Bevan, director of the Exploratorium Institute for Research and Learning in San…

When state leaders and national partners in the development of the Next Generation Science Standards met to consider implementation strategies, states and school districts wanted to know which materials were aligned to the new standards. The answer from the developers was short but not sweet: You won't find much now, and it's going to…

In response to a report from the President's Council of Advisors on Science and Technology, President Obama issued a challenge to the U.S. education system to create more than 1,000 new STEM-focused schools, including 200 high schools. Inclusive STEM-focused high schools--which focus their efforts on females, minorities, and students who are…

In too many K-12 schools, notes Hoachlander, science, math, and technology are still taught in isolation from one another--and engineering is barely taught at all. Even when STEM content and skills are presented in an integrated fashion, they are rarely linked to the rest of the academic subjects or to real-world work in STEM fields. Hoachlander…

The author, principal at North Point High School of Science, Technology and Industry in Charles County, Maryland, describes how the school merges traditional academic classes with cutting-edge career and technical education courses to prepare students for the real world. Realizing that its traditional "vo-tech" model was undersubscribed…

Brief descriptions and addresses are provided for the following: four handbooks for elementary principals on science programs, a study on women in science, a renewal of National Science Foundation funding for precollege-level science teaching projects, and a report outlining proposals for educational improvement in science. (TE)

Contends that school science programs should return to the visionary programs of the 1960's, which developed logical thinking and problem solving. These have since given way to a barren emphasis on fact acquisition and "cookbook" lab activities. (TE)

Argues that science programs developed during the 1960's should be replaced by "science/technology/society" (S/T/S) programs, which build on students' curiosity and concern about local problems. (TE)

Considers the development of science curricula from World War II and how the emphasis has changed to conceptualization of science knowledge in order to encourage intellectual activity. As well, this change has led to an improved climate for curriculum innovation. (Author/RK)

A study of 221 teachers in 50 exemplary science programs shows that teachers in these programs are unlike science teachers in general. This report offers a general profile of exemplary science teachers and summarizes data about their goals, expectations, strategies, and the results they obtain with students. (IW)