Globally, schools were faced with mandatory shutdowns in the wake of the recent COVID-19 outbreak. To avoid disruption in the education process, teachers and students used alternative education strategies and solutions, switching to emergency remote teaching and learning (ERTL). This change was completely unanticipated, and thus can only be…

The washback effect is particularly relevant when it comes to high-stakes tests, such as university entrance exams. This article presents a research study performed with the aim of determining the current influence of these exams on the teaching of chemistry in upper secondary education. The study was based on a questionnaire distributed among…

Scientific media education is the ability to draw on a knowledge of the media and science, in order to choose, understand, evaluate, and respond to representations of science across diverse media genres. We begin this manuscript by reviewing research that shows scientific media education is one of the most important content areas that could be…

In this article the author takes as a point of departure certain discursive practices employed by physicists credited with popularizing the field of quantum mechanics in order to posit the relationship between space, learning, and the perception of pedagogical realities as trans-local phenomena. More specifically, through this article the author…

The aim of this study was to gather university student perspectives on a new type of assessment task requesting them to create "blended media". Blended media is a new form of student-generated multimedia whereby students devise a narration or voiceover to explain a science concept complemented by any combination of visuals such as video,…

In Australia we are at a crossroads in science education. We have come from a long history of adopting international curricula, through to blending international and Australian developed materials, to the present which is a thoroughly unique Australian curriculum in science. This paper documents Australia's journey over the past 200 years, as we…

Two separate writing-to-learn activities in which students wrote to authentic audiences outside of the instructor were used in a college integrated science course, Science of Water. For the first task, students were asked to write to fourth-grade students, and for the second, students were asked to write to their academic advisor. An overview of…

Reform based curriculum offer a promising avenue to support greater student achievement in science. Yet teachers frequently adapt innovative curriculum when they use them in their own classrooms. In this study, we examine how 19 teachers adapted an inquiry-oriented middle school science curriculum. Specifically, we investigate how teachers'…

Aligns science curricula with the current benchmarks and standards. (Contains 45 references.) (YDS)

Questions how secondary school students view science models. Concludes by recommending that teachers mold scientific modeling to their students, encourage the use of multiple models in science lessons, progressively introduce sophisticated models, systematically present in-class models using the Focus, Action, and Reflection (FAR) guide, and…

Presents a simple pedagogical model to teach the importance of antiparallel complementarity in nucleotide pairing when replication, transcription and coding are initially introduced. (HM)

In part 1 (SE 532 193) an outline of Ausubel's learning theory was given. The application of the theory to elementary school science is addressed in this part, clarifying what elementary science means and indicating how it relates to what may be expected to be already known by elementary school children. (Author/JN)

Analyzes the meaning of Piaget's concept of abstraction and provides discussion of some of its shortcomings. (HM)

Discusses the existing design of some undergraduate physics courses, and outlines the general aims which will give the development of a physics curriculum a definite direction and approach. (GA)

Suggesting that learning be considered as a generative process, attempts to: (1) place generative learning ideas in the context of other viewpoints of learning; (2) explicate key postulates of the generative learning model; and (3) examine implications of these theoretical ideas for teaching, learning, curriculum development, and research. (JN)