In a recent survey of over 240 primary school children between the ages of 8 and 11, NUSTEM found that 75% of children said that they liked science and 63% said that they were good at science. However, when looking at the data by gender, there is a difference in enjoyment between girls and boys, with 71% of girls and 79% of boys saying that they…

COVID-19 has changed about every aspect of life including how we teach in higher education. Laboratory experiments vital for learning hands-on techniques are limited due to social distancing requirements and increased numbers of distance-learning students. The solution to loss of hands-on activities has been to compensate with virtual laboratory…

The COVID-19 pandemic resulted in the mass shutdown of universities across the United States in the spring of 2020. As the pandemic progressed, regional regulations resulted in a broad range of teaching modalities for the 2020-2021 academic year. While some regions remained tightly locked down (resulting in online-only instruction), others allowed…

The COVID-19 pandemic disrupted chemistry teaching practices globally as many courses were forced online, necessitating adaptation to the digital platform. The biggest impact was to the practical component of the chemistry curriculum--the so-called wet lab. Naively, it would be thought that computer-based teaching laboratories would have little…

Introductory-level laboratory courses provide students with hands-on experience using the discipline's tools and theories. These courses often rely on recipe-based experiments due to the constraints of large enrollments, short lab periods, and the desire to minimize complexity. In addition, covering a breadth of topics can lead to a fragmented…

One plausible method for ensuring students are truly understanding science fundamentals beyond being actively and intellectually engaged is to consider how informal learning environments can provide meaningful relevancy by connecting to real-world instances. Transforming traditional science centers into informal learning centers will ensure that…

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…

Well before the Next Generation Science Standards became final last month, teachers in pockets around the country were already exploring the vision for science education espoused by the document and bringing elements of that approach to the classroom. The new standards call for bringing greater depth to K-12 students' understanding of the subject…

The maker movement consists of a growing culture of hands-on making, creating, designing, and innovating. A hallmark of the maker movement is its do-it-yourself (or do-it-with-others) mindset that brings individuals together around a range of activities, both high- and low-tech, all involving some form of creation or repair. The movement's…

The Leadership and Assistance for Science Education Reform (LASER) Model is a systemic approach to science learning and teaching based on five infrastructure pillars: research-based curriculum, differentiated professional development, administrative and community support, materials support, and assessment. This model uses the Science and…

Engaging students in both hands-on and minds-on experiences is needed for education that is relevant and complete. Many middle school students enter science classrooms with pre-conceived ideas about their world. Some of these ideas are misconceptions that hinder students from developing accepted concepts in science, such as those related to…

By the 1970s a fundamental shift had taken place in German science education. This was a shift away from the learning of more-or-less isolated facts and facets in Biology, Chemistry, and Physics towards a restructuring of science teaching along the general principles of the respective science domains. The changes included also the addition of…

STEM--science, technology, engineering, and mathematics--has become a fixture of the education debate, and much effort already has been put toward improving student performance. Yet troubling statistics persist: On the latest round of testing for the National Assessment of Educational Progress (NAEP), only 40 percent of fourth graders nationwide…

About 20 years ago, a number of Yukon schools took a different approach to outdoor education and outdoor pursuits. During the 1970s and 1980s, most Yukon high schools and junior high schools offered a course called Outdoor Education. These courses fit into the conventional blocks in a school timetable. Outdoor activities longer than these blocks…

Focusing on the case of mathematics, this paper reviews debates on China's new Basic Education Curriculum Reform program, including the status of knowledge within the reformed curriculum, the arrangement of the curriculum system, and the push toward real-life applicability and hands-on participation. It discusses the related challenges that…