Learning and engagement through natural history museums*

This review examines how natural history museums (NHMs) can enhance learning and engagement in science, particularly for school-age students. First, we describe the learning potential of informal science learning institutions in general, then we focus on NHMs. We review the possible benefits of interactions between schools and NHMs, and the potential for NHMs to teach about challenging issues such as evolution and climate change and to use digital technologies to augment more traditional artefacts. We conclude that NHMs can provide students with new knowledge and perspectives, with impacts that can last for years. Through visits and their on-line presence, NHMs can help students see science in ways that the school classroom rarely can, with opportunities to meet scientists, explore whole topic exhibitions, engage with interactive displays and employ digital technologies both in situ and to support learning in the school science classroom. Although these interactions have the potential to foster positive cognitive, affective and social outcomes for students, there is a lack of reliable measures of the impact of NHM experiences for students. Opportunities to foster relationships between NHM staff and teachers through professional development can help articulate shared goals to support students’ learning and engagement.     

Staff Members’ Ideas about Visitors’ Learning at Science and Technology Centres

This study investigates staff members’ ideas and assumptions about visitors’ learning at science and technology centres. It also aims to explore in what ways their reasoning intersect with existing theories about learning within the field of science and technology centre research. The results of the study reveal that the staff members allude to learning processes differently by distinguishing organized from non‐organized learning, theoretical learning from practical hands‐on learning, and serious from non‐serious learning. According to most of the staff members, these also conclude with different learning outcomes. Further, a majority of the staff members state that they do not have any scientific knowledge about learning despite the fact that they work with the construction of new exhibitions. When discussing visitors’ learning, the staff members instead refer to personal experiences, professional experiences, professional education, and external references. When it comes to how they reason about the natural scientific content, nearly all express that they use references from the natural science community and researchers’ knowledge. The article moreover discusses in what ways a socio‐cultural approach may be used in order to understand how learning arises when visitors interact with exhibits.     

Using iPads as a learning tool in cross-curricular collaborative initial teacher education

Mobile technologies are becoming more and more prevalent in learning environments. This means that teacher education must keep pace with the use of mobile technologies. Baran (2014) argues that the ‘greatest added value of mobile learning vis-a-vis PC learning lies in the aspects that extend classroom interaction to other locations via communication networks’. (p. 18) This article outlines a pilot study developed to support collaborative working between the English and science pre-service teachers, in which mobile technologies were used to extend students interactions outside the classroom, using iPads in authentic, fieldwork situations.     

Enhancing Visitors’ Interest in Science – A Possibility or A Paradox?

Within the enterprise of science and technology centres there exists explicit aims and ambitions to enhance visitors’ interest in and knowledge about science. Meanwhile, several researchers question the choice of the scientific content in exhibitions when arguing that a too unproblematic view of science commonly is presented. But how do staff members consider what scientific content to include and how this content can be organised in exhibitions? The results from interviews of staff members, responsible for planning and creating new exhibitions, suggest that they consider the scientific content of their exhibitions to a high extent in terms of organizational matters. This means that the staff members tend to not consider discussions about what aspects of science to include or exclude. Further on, the results imply that the relation between science and society risk being implicit to the visitors, whereas the aspect of scientific processes tend to be overlooked when constructing new exhibitions. The staff members express an anxiety in displaying scientific uncertainties or different models of explanations when arguing that this risks confusing the visitors. However, these aspects of science are, in the field of science education, considered crucial in order to create curiosity and interest in science. Does this mean that science and technology centres, through their eagerness to enhance young visitors’ scientific literacy, risk contributing to their detachment from or unconcern for scientific issues?     

Getty Museum Family Room – Educational Issues on Scaffolding and Transfer of Learning

In order better to support children’s learning experiences, art museums have begun to establish interactive art exhibitions designed for family visitors. However, as more of these interactive exhibitions are established, some museum professionals are raising concerns about whether these exhibitions actually facilitate young visitors’ learning or impede them from engaging further with the art objects exhibited. Using the Family Room (FR) of the J. Paul Getty Museum in Los Angles as a case study, this research examines the educational principles considered and the challenges encountered when conceptualising and implementing its interactive exhibition. My research shows that the FR project team emphasised three educational principles to be integrated into the exhibition design: (1) interactive learning, (2) family as a learning unit, and (3) enhance the learning of basic artistic elements. The FR’s overarching educational objective is to encourage transfer of learning between the FR to the Getty traditional art galleries. My research concludes with three suggestions to be considered in future practices of art museum education (1) the limits and potentials of interactives, (2) the interactive exhibition design and scaffolding, and (3) transfer of learning between galleries.     

Collaborative communication technologies and learning in college courses: which are used,for what purposes,and to what ends?

Web-based communication technologies that enable collaboration and sharing of information among users – such as podcasts, wikis, blogs, message boards, and others – are used commonly in contemporary organizations to increase and manage employee learning. In this investigation, we identify which of these collaborative communication technologies are used in relation to college courses, and with what frequency; we report student evaluations of their use and reasons why students indicate using them. Next, using Keller's ARCS theoretical framework, we examine the role of course-related communication technology use in four dimensions of course-specific motivation. Results indicate that in courses where students perceive that technology is used effectively, motivation to learn is higher than in courses where students perceive technology is used ineffectively – and that technology-related motivation is substantially related to course-specific learning outcomes. Importantly, students reported higher levels of cognitive learning for courses in which technology was perceived as being used effectively than for courses in which communication technology was perceived by students as ineffectively implemented.     

Academic continuity through online collaboration: mathematics teachers support the learning of pupils with chronic illness during school absence

Recent applications of technology to mathematics education have been designed with cognitive and constructivist theoretical perspectives in mind, viewing mathematical learning as the acquisition of knowledge through the construction of meanings and connections between concepts. With the advent of increasingly flexible communication technologies, there is both the need and opportunity to consider how they might be utilised, particularly since emergent socio-cultural theories advocate learning in mathematics as an inherently social activity where understanding is developed and negotiated collaboratively. The need to examine effective technology-facilitated learning arose in the context of a research project, currently underway in a number of secondary schools in the state of Victoria and funded by the Australian Research Council. It is investigating the learning needs of pupils who are absent from school for prolonged or intermittent periods owing to chronic illness yet continue with their school studies. An emerging understanding of the significant difference between computer-mediated contact for mere information exchange and communication for teaching and learning has led to a consideration of socio-cultural perspectives on effective mathematical learning and a focussed investigation of technologies able to facilitate them. Early data have demonstrated the potential of videoconferencing, online whiteboarding and interactive whiteboard application sharing, but which require particular resources, aligned infrastructure and teacher support. This article explores issues surrounding the use of such technologies for collaborative mathematical learning in a context where online interaction is being considered for the learning support of pupils unable to attend school.     

Coordinating scaffolds for collaborative inquiry in a game-based learning environment

Collaborative inquiry learning affords educators a context within which to support understanding of scientific practices, disciplinary core ideas, and crosscutting concepts. One approach to supporting collaborative science inquiry is through problem-based learning (PBL). However, there are two key challenges in scaffolding collaborative inquiry learning in technology rich environments. First, it is unclear how we might understand the impact of scaffolds that address multiple functions (e.g., to support inquiry and argumentation). Second, scaffolds take different forms, further complicating how to coordinate the forms and functions of scaffolds to support effective collaborative inquiry. To address these issues, we identify two functions that needed to be scaffolded, the PBL inquiry cycle and accountable talk. We then designed predefined hard scaffolds and just-in-time soft scaffolds that target the regulation of collaborative inquiry processes and accountable talk. Drawing on a mixed method approach, we examine how middle school students from a rural school engaged with Crystal Island: EcoJourneys for two weeks (N=45). Findings indicate that hard scaffolds targeting the PBL inquiry process and soft scaffolds that targeted accountable talk fostered engagement in these processes. Although the one-to-one mapping between form and function generated positive results, additional soft scaffolds were also needed for effective engagement in collaborative inquiry and that these soft scaffolds were often contingent on hard scaffolds. Our findings have implications for how we might design the form of scaffolds across multiple functions in game-based learning environments.     

Modeling small group learning

This article presents findings from an empirical study on the relations between the variables comprising learning mechanisms in small collaborative groups. Variables comprising the central learning mechanisms component were task related interactions, knowledge elaborations, and subjective estimation of knowledge acquisition. Student related determinants of the learning processes were dysfunctional behavior, and work group management. Tutor related determinants were tutor facilitative behavior(facilitation, questioning, and mini-lecturing), and tutor work group management. The selected variables were structured into a path model. The first question concerned the way the three variables comprising the learning mechanisms component are related to each other. We have contrasted mediation vs. addition hypothesis. The second question concerned the validity of the complete small group functioning model. In order to answer these questions we have constructed a questionnaire and administered it to 89 1st year medical students. Concerning the first question, the data were in accordance with the mediation hypothesis. Specific analyses showed that only the collaborative sequence type of task related interactions had positive effects on both knowledge elaborations and knowledge acquisition. In contrast the transfer of knowledge type of interactions had negative effects on the same variables. Test of the validity of the complete model showed a satisfactory model fit. Briefly, our findings suggest that a large proportion of collaborative sequences in the group, together with a low proportion of dysfunctional behavior and highly facilitative behavior of the tutor will lead to a high proportion of knowledge elaborations. Knowledge elaborations positively affect knowledge acquisition which is an important determinant of the student satisfaction and motivation.     

Investigating the impact of prior knowledge and interest on aquarium visitor learning

Most free‐choice science learning institutions, in particular science centers, zoos, aquariums, and natural history museums, define themselves as educational institutions. However, to what extent, and for which visitors, do these free‐choice learning settings accomplish their educational mission? Answering this question has proven challenging, in large part because of the inherent variability of visitors to such settings. We hypothesize that the challenges of measuring free‐choice science learning might be diminished if it were possible to pool populations during analysis in ways that reduced this variability. Specifically, we propose grouping learners according to their entering understanding and attitudes, using qualitative categories such as minimal, moderate, and extensive. In this article, we use data collected at the National Aquarium in Baltimore to determine whether grouping makes it possible to discern more readily the nature of changes in aquarium visitors' conservation knowledge and attitudes. Although analysis revealed that there were significant changes in both conservation knowledge and attitudes, entry to exit, for all 100 visitors studied, a more detailed analysis revealed that gains were not evenly distributed across all visitors. The results support the hypothesis that the grouping of learners into minimal, moderate, and extensive conservation knowledge and attitude categories enabled a more fine‐grained and accurate understanding of changes in aquarium visitor's conservation learning. © 2003 Wiley Periodicals, Inc. J Res Sci Teach 40: 163–176, 2003     

Explanations from intra- and inter-group discourse: Students building knowledge in the science classroom

This article discusses the relation and patterns of intra- and inter-group discourse as middle school students explain particular phenomena. We present a framework of the dynamic process involved in generating collaborative knowledge. Our focus is on connecting students' thinking and experience with science concepts and explanations. Using the perspective of learning as a social activity, we are interested in science teaching that engages students in collaborative inquiry as a means for learning science content. Specifically, we examine the role of shared inquiry and the nature of consensus-building in students' development of explanations from a collaborative knowledge-building stance. Student discourse, in small (intra-group) and large (inter-group) contexts, is examined as an explicit mode of inquiry. While additional study is needed, we contend these two forms of discourse (constructive and generative; dialectic and persuasive) effectively promote progressive discourse and thereby facilitate shared coherent explanations of phenomena. If we now consider dialectics rather than method as the logic of science, the whole image changes because of the essential, constitutive role played by interlocutors. Due to this role, science becomes a game with three players: an inquiring mind, or, more realistically, a group of the communityC ₁, natureN, and another group of the communityC ₂. (Pera, 1994, p. 133).     

Examining socially shared regulation and shared physiological arousal events with multimodal learning analytics

Socially shared regulation contributes to the success of collaborative learning. However, the assessment of socially shared regulation of learning (SSRL) faces several challenges in the effort to increase the understanding of collaborative learning and support outcomes due to the unobservability of the related cognitive and emotional processes. The recent development of trace-based assessment has enabled innovative opportunities to overcome the problem. Despite the potential of a trace-based approach to study SSRL, there remains a paucity of evidence on how trace-based evidence could be captured and utilised to assess and promote SSRL. This study aims to investigate the assessment of electrodermal activities (EDA) data to understand and support SSRL in collaborative learning, hence enhancing learning outcomes. The data collection involves secondary school students (N = 94) working collaboratively in groups through five science lessons. A multimodal data set of EDA and video data were examined to assess the relationship among shared arousals and interactions for SSRL. The results of this study inform the patterns among students' physiological activities and their SSRL interactions to provide trace-based evidence for an adaptive and maladaptive pattern of collaborative learning. Furthermore, our findings provide evidence about how trace-based data could be utilised to predict learning outcomes in collaborative learning.

Practitioner notes

What is already known about this topic

• Socially shared regulation has been recognised as an essential aspect of collaborative learning success.
• It is challenging to make the processes of learning regulation ‘visible’ to better understand and support student learning, especially in dynamic collaborative settings.
• Multimodal learning analytics are showing promise for being a powerful tool to reveal new insights into the temporal and sequential aspects of regulation in collaborative learning.

What this paper adds

• Utilising multimodal big data analytics to reveal the regulatory patterns of shared physiological arousal events (SPAEs) and regulatory activities in collaborative learning.
• Providing evidence of using multimodal data including physiological signals to indicate trigger events in socially shared regulation.
• Examining the differences of regulatory patterns between successful and less successful collaborative learning sessions.
• Demonstrating the potential use of artificial intelligence (AI) techniques to predict collaborative learning success by examining regulatory patterns.

Implications for practice and/or policy

• Our findings offer insights into how students regulate their learning during collaborative learning, which can be used to design adaptive supports that can foster students' learning regulation.
• This study could encourage researchers and practitioners to consider the methodological development incorporating advanced techniques such as AI machine learning for capturing, processing and analysing multimodal data to examine and support learning regulation.

     

Arts‐Based Educational Research in Museums: ‘Art for Learning Art’, an A/r/tographic Mediation

This article discusses forms of arts‐based mediation in museums that use creation as the primary tool in the learning process. We present four mediation experiences based on the arts‐based teaching methodologies promoted by the project ‘Art for Learning Art’. These experiences have been developed in four museums: the Centre Pompidou Málaga, the State Russian Museum in Málaga and the Espai d'Art Contemponeo [Center of contemporary art] in Castellón in Spain and the Modern Art Murilo Mendes Museum of Minas Gerais in Brazil. Four experiences in three cities of two countries that work in a methodology which involves participative and collaborative visitor connections with the works exhibited using arts‐based strategies. In all cases, the artistic works of the exhibitions are the conceptual basis for mediation proposals that are offered to the public in order to encourage participation. We link the aesthetic experience as the origin of the mediation process in two fundamental aspects: creation and appreciation. In the act of creative appreciation, most art education objectives are met. The actions and processes are directed by collaborative and contemporary creation strategies around two axes: museum educator‐artists in training and visitors‐artists as learners. In the four experiences that we present here, this confluence takes place. The four events have been adapted to the conditions of the place, public and art exhibitions, contributing new approaches to the model that has been promoted from the University of Granada since 2013.     

The collaborative language learning attributes of cyber face-to-face interaction: the perspectives of the learner

This article examines the degrees of collaborative language learning that were supported in cyber face-to-face interaction. The concept of “cyber face-to-face” is used here to encapsulate the kind of environment in which a combination of real-time oral/aural, visual, and text-based interaction happens simultaneously via the various features in an advanced Synchronous Learning Management System (SLMS). The study discusses the results of an evaluation of the five features, namely, the interactive whiteboard, the text chat, the group cyber face-to-face classrooms, the audio, and the video, in an SLMS called 3C. Thirty-three students from an online Chinese/English interpreting course participated in this study. Survey data indicate that collaborative learning can be effectively facilitated in a cyber face-to-face environment, although the degrees of collaboration vary among the five features evaluated. Recommendations for maximizing the collaborative learning potentials of a cyber face-to-face environment are also put forward.     

Preschool children’s Collaborative Science Learning Scaffolded by Tablets

This paper reports on a project aiming to extend the current understanding of how emerging technologies, i.e. tablets, can be used in preschools to support collaborative learning of real-life science phenomena. The potential of tablets to support collaborative inquiry-based science learning and reflective thinking in preschool is investigated through the analysis of teacher-led activities on science, including children making timelapse photography and Slowmation movies. A qualitative analysis of verbal communication during different learning contexts gives rise to a number of categories that distinguish and identify different themes of the discussion. In this study, groups of children work with phase changes of water. We report enhanced and focused reasoning about this science phenomenon in situations where timelapse movies are used to stimulate recall. Furthermore, we show that children communicate in a more advanced manner about the phenomenon, and they focus more readily on problem solving when active in experimentation or Slowmation producing contexts.     

Limits and potentials of social networking in academia: case study of the evolution of a mathematics Facebook community

The use of social networking services has rapidly increased in recent years, especially by university students. Some authors assert that they have educational potential in terms of promoting collaborative learning practices among undergraduate students which enhance engagement and understanding. This possibility is particularly relevant to mathematics learning, because university communities are frequently experienced as isolating and performance-oriented. This case study reports on the use of Facebook to support mathematical communication and more participative learning identities within a UK university mathematics department. It describes how the reactive formation of a student-led Facebook community became a source of conflict within the wider academic social community and how this conflict was eventually resolved. While it raises questions about the extent to which Facebook can encourage open collaborative learning within the wider context of student aspirations in a competitive climate, it notes its potential for fostering cross-cohort student support in a subject which frequently induces anxiety in its students.     

Charting the development of technology-enhanced learning developments across the UK higher education sector: a longitudinal perspective (2001–2012)

This article reviews key findings from six surveys of technology-enhanced learning (TEL) across the UK higher education (HE) sector, conducted by Universities and Colleges Information Systems Association in association with Jisc. Updating the findings presented by Jenkins, Browne, Walker, and Hewitt [2010. The development of technology enhanced learning: Findings from a 2008 survey of UK higher education institutions, Interactive Learning Environments. First published on: 22 January 2010 (iFirst)], the article reports on the emerging and planned patterns of TEL across the UK HE sector over the last decade. Our analysis shows that against the backdrop of Higher Education Funding Council for England capital funding, institutions have made considerable investments in technology and infrastructure to support learning and teaching – specifically in the domain of learning management and assessment systems. While the drivers for TEL development have consistently focused on enhancing teaching and learning over the years, the subject of this investment has been directed to the implementation of enterprise-wide systems to manage and control learning processes, delivering efficiencies of scale and standardised learning experiences through centrally managed solutions, rather than support for student-controlled tools. In contrast, the diffusion of technologies supporting collaborative learning and knowledge sharing has been more a feature of local TEL provision, as evidenced through the informal learning practice of students and departmental projects. The evolution of course delivery models and pedagogic developments supported through the use of technology have been noticeably much slower to realise; growth in “web-dependent” rather than “supplementary” course design models has been quite limited across the sector and we have observed negligible growth in distance learning provision over this period. The evidence suggests that challenges remain in developing course delivery models which focus on active student learning, maximising the opportunities that web and mobile technologies now offer for interactive student-centred learning design. We speculate that the recent upsurge of interest in Massive Open Online Courses may act as a catalyst in this respect, in driving campus-based courses to embrace new learning models supported by TEL tools.     

Learning experiences in a giant interactive environment: insights from The Cube

In November 2012, Queensland University of Technology in Australia launched a giant interactive learning environment known as The Cube. This article reports a phenomenographic investigation into visitors’ different experiences of learning in The Cube. At present very little is known about people’s learning experience in spaces featuring large interactive screens. We observed many visitors to The Cube and interviewed 26 people. Our analysis identified critical variation across the visitors’ experience of learning in The Cube. The findings are discussed as the learning strategy (in terms of absorption, exploration, isolation and collaboration) and the content learned (in terms of technology, skills and topics). Other findings presented here are dimensions of the learning strategy and the content learned, with differing perspectives on each dimension. These outcomes provide early insights into the potential of giant interactive environments to enhance learning approaches and guide the design of innovative learning spaces in higher education.     

Scientific epistemic beliefs, conceptions of learning science and self-efficacy of learning science among high school students

This study examined the relationships among Taiwanese high school students’ scientific epistemic beliefs, conceptions of learning science, and self-efficacy of learning science. The questionnaire responses gathered from 377 high school students in Taiwan were utilized to elicit such relationships. The analysis of the structural equation model revealed that students’ absolutist scientific epistemic beliefs led to lower-level conceptions of learning science (i.e. learning science as memorizing, preparing for tests, calculating, and practicing) while sophisticated scientific epistemic beliefs might trigger higher-level conceptions of learning science (i.e. learning science as increase of knowledge, applying, and attaining understanding). The students’ lower-level conceptions of learning science were also found to negatively associate with their self-efficacy of learning science, while the higher-level conceptions of learning science fostered students’ self-efficacy. However, this study found that students who viewed scientific knowledge as uncertain (advanced epistemic belief) tended to possess lower self-efficacy toward learning science.     

How do engineering attitudes vary by gender and motivation? Attractiveness of outreach science exhibitions in four countries

ABSTRACT

Outreach activities, like mobile science exhibitions, give opportunities to hands-on experiences in an attractive learning environment. We analysed attitudes, motivation and learning during a science exhibition visit, their relations to gender and future educational plans in Finland, Estonia, Latvia and Belgium (N?=?1210 sixth-graders). Pupils' performance in a knowledge test improved after the visit. Autonomous motivation and attitudes towards science predicted situation motivation awakened in the science exhibition. Interestingly, the scientist attitude and the societal attitude were clearly separate dimensions. The third dimension was manifested in the engineering attitude typical for boys, who were keener on working with appliances, designing computer games and animations. Scientist and societal attitudes correlated positively and engineering attitude correlated negatively with the future educational plans of choosing the academic track in secondary education. The societal perspective on science was connected to above average achievement. In the follow-up test, these attitudes showed to be quite stable.