Citizen science (CS) projects have become widespread in part because they expand the capacity of professional scientists, enabling research that would otherwise be impracticable or unaffordable. In addition to the research benefits, educators and scientists have seen educational value in CS because it can incorporate students into real-world…

In this Reflection on Practice we propose a triple nexus of research, public engagement and teaching that could provide a new pathway for academic developers to enable greater engagement in learning and teaching issues from science, technology, engineering, and mathematics (STEM) academics. We argue that the public engagement activities demanded…

Mathematics education is rarely out of the policy spotlight in England. Over the last 10 years, considerable attention has been given to improving 14-19 mathematics curriculum pathways. In this paper we consider some of the challenges of enacting curriculum change by drawing upon evidence from our evaluation of the Mathematics Pathways Project…

A new educational simulation tool designed for the generic study of wireless networks, the Wireless Fidelity Simulator (WiFiSim), is presented in this paper. The goal of this work was to create and implement a didactic tool to improve the teaching and learning of computer networks by means of two complementary strategies: simulating the behavior…

We redesigned the undergraduate introductory biology course by writing a new textbook ("Integrating Concepts in Biology" ["ICB"]) that follows first principles of learning. Our approach emphasizes primary data interpretation and the utility of mathematics in biology, while de-emphasizing memorization. This redesign divides biology into five big…

The Learning in Science Project (Primary)--LISP(P)--investigated the questions and explanations primary children have about rocks. Data were collected during teaching sessions from New Zealand students (ages 8-11) and Australian students (ages 10-11). The teaching sessions required the teacher to create a situation in which children generated some…

The topic of metals is frequently taught in primary schools. However, when metals are suggested as one of a series of topics for study, students often initially show little enthusiasm for the topic. To determine the ideas that children have about metals the Learning in Science Project (Primary)--LISP(P)--interviewed thirty-eight 9- to 10-year-old…

An alternative approach for teaching primary school science has been proposed by the Learning in Science Project (Primary--LISP(P). This study investigated the use of the approach during three series of lessons on the topic "metals." Each series followed the same general pattern: (1) an introductory session to stimulate children to ask…

A strong, recent movement in tertiary education is the development of conceptual, or "big idea" teaching. The emphasis in course design is now on promoting key understandings, core competencies, and an understanding of connections between different fields. In biochemistry teaching, this radical shift from the content-based tradition is…

The Learning in Science Project (Primary)--LISP(P)--investigated the questions and explanations primary children have about spiders. The data comprise 112 questions and 104 explanations (included in appendices) offered by children after being shown a picture of a spider. Additional data were collected during individual interviews with 18 students.…

The Learning in Science Project (Primary)--LISP(P)--investigated the ideas and interests about spiders held by 8- to 10-year-old children. Data included 303 questions--and answers to some of the questions--about spiders obtained from children in four classes and from responses obtained during individual interviews with 10 children from each age…

The Learning in Science Project (Primary--LISP(P)--designed to investigate the teaching and learning of science in New Zealand primary schools, arises from the work of the original Learning in Science Project (LISP). This paper is an attempt to clarify the direction of LISP(P) as it moves toward the central phase of the research. The ideas…

The stand taken in the Learning in Science Project (Primary)--LISP(P)--is that primary school science should be centrally concerned with children's present interaction with their world rather than their future science education. Further, it has been decided that one of the LISP(P) foci should be on questions that children ask and how these…

One area explored in the Learning in Science Project (Primary--LISP(P)--was children's questions about and explanations of phenomena. Data were obtained from work with classes of children, interviews with children, informal discussions with teachers, and observations of two teachers using an alternative teaching model (outlined in an appendix)…

The Learning in Science Project (Primary)--LISP(P)--was designed to investigate the teaching and learning of science in the primary school. This paper summarizes the work undertaken and the findings obtained during the first 9 months of the project. During the first 6 months, an exploratory phase, similar to the original Learning in Science…