Methods for studying family visitors in art museums: A cross-disciplinary review of current research

This paper examines current trends in family studies research, details the methodological and topical perspectives that are emerging, and reflects on how these findings could be integrated to provide a more coherent approach to researching the leisure, learning and recreational aspects of family visitors to art museums. Research findings from disciplines such as sociology, ethnography, education, design and marketing are of interest to the field of visitor studies, and this paper contributes to the wider research agenda by providing an overview of family research methods from a range of other disciplines, as well as those used within visitor studies.Over the last decade, there has been a growth of research in family learning in science museums, leading to an emerging disciplinary matrix, whilst many aspects of family visits to art museums remain relatively unexplored. The paper discusses the problems of gathering meaningful data from adults and children in family groups, and concludes by suggesting that a challenge for art museums is to learn from what is happening in other areas of cultural research into families, and to develop a framework for research which builds on the methodological strengths and practical experience of robust studies.     

WIDENING AND INCREASING POST-16 MATHEMATICS PARTICIPATION: PATHWAYS, PEDAGOGIES AND POLITICS

This paper explores the potential impact of a national pilot initiative in England aimed at increasing and widening participation in advanced mathematical study through the creation of a new qualification for 16- to 18-year-olds. This proposed qualification pathway—Use of Mathematics—sits in parallel with long-established, traditional advanced level qualifications, what we call ‘traditional Mathematics’ herein. Traditional Mathematics is typically required for entry to mathematically demanding undergraduate programmes. The structure, pedagogy and assessment of Use of Mathematics is designed to better prepare students in the application of mathematics, and its development has surfaced some of the tensions between academic/pure and vocational/applied mathematics. Here, we explore what Use of Mathematics offers, but we also consider some of the objections to its introduction in order to explore aspects of the knowledge politics of mathematics education. Our evaluation of this curriculum innovation raises important issues for the mathematics education community as countries seek to increase the numbers of people that are well prepared to apply mathematics in science and technology-based higher education courses and work places.     

Performance Indicators and Quality Review in Australian Universities

This paper examines the relationship between sets of quantitative performance and diversity indicators and the qualitative banding of Australian universities made by the Committee for Quality Assurance in Higher Education. Using factor analysis, three performance factors (Traditional Research University Performance, Teaching Performance and Competitive Research Performance) and four diversity factors (Size, Equity, Student Staff Ratios and Access) were obtained. Strong association was found between quality ranking and composite measures of performance. When factor‐based composite measures were used, quality rankings were significantly correlated with Traditional Research University Performance, Teaching Performance and Size, and negatively with Equity.     

Relations between maternal input and theory of mind understanding in deaf children

This study investigates the relationship between theory of mind (ToM) skills in deaf children and input from their hearing mothers. Twenty-two hearing mothers and their deaf children (ages 4-10 years) participated in tasks designed to elicit talk about the mind. The mothers' mental state talk was compared with that of 26 mothers with hearing children (ages 4-6 years). The frequency of mothers' mental talk was correlated with deaf children's performance on ToM tasks, after controlling for effects of child language and age. Maternal sign proficiency was correlated with child language, false belief, and mothers' talk about the mind. Findings are discussed in relation to experiential accounts of ToM development and roles of maternal talk in children's social understanding.     

How students reason about matter flows and accumulations in complex biological phenomena: An emerging learning progression for mass balance

In recent years, there has been a strong push to transform STEM education at K-12 and collegiate levels to help students learn to think like scientists. One aspect of this transformation involves redesigning instruction and curricula around fundamental scientific ideas that serve as conceptual scaffolds students can use to build cohesive knowledge structures. In this study, we investigated how students use mass balance reasoning as a conceptual scaffold to gain a deeper understanding of how matter moves through biological systems. Our aim was to lay the groundwork for a mass balance learning progression in physiology. We drew on a general models framework from biology and a covariational reasoning framework from math education to interpret students' mass balance ideas. We used a constant comparative method to identify students' reasoning patterns from 73 interviews conducted with undergraduate biology students. We helped validate the reasoning patterns identified with >8000 written responses collected from students at multiple institutions. From our analyses, we identified two related progress variables that describe key elements of students' performances: the first describes how students identify and use matter flows in biology phenomena; the second characterizes how students use net rate-of-change to predict how matter accumulates in, or disperses from, a compartment. We also present a case study of how we used our emerging mass balance learning progression to inform instructional practices to support students' mass balance reasoning. Our progress variables describe one way students engage in three dimensional learning by showing how student performances associated with the practice of mathematical thinking reveal their understanding of the core concept of matter flows as governed by the crosscutting concept of matter conservation. Though our work is situated in physiology, it extends previous work in climate change education and is applicable to other scientific fields, such as physics, engineering, and geochemistry.