Graduate Experience in Science Education: the development of a science education course for biomedical science graduate students

The University of Rochester's Graduate Experience in Science Education (GESE) course familiarizes biomedical science graduate students interested in pursuing academic career tracks with a fundamental understanding of some of the theory, principles, and concepts of science education. This one-semester elective course provides graduate students with practical teaching and communication skills to help them better relate science content to, and increase their confidence in, their own teaching abilities. The 2-h weekly sessions include an introduction to cognitive hierarchies, learning styles, and multiple intelligences; modeling and coaching some practical aspects of science education pedagogy; lesson-planning skills; an introduction to instructional methods such as case studies and problem-based learning; and use of computer-based instructional technologies. It is hoped that the early development of knowledge and skills about teaching and learning will encourage graduate students to continue their growth as educators throughout their careers. This article summarizes the GESE course and presents evidence on the effectiveness of this course in providing graduate students with information about teaching and learning that they will use throughout their careers.     

Science teaching in science education

Reading the interesting article Discerning selective traditions in science education by Per Sund, which is published in this issue of CSSE, allows us to open the discussion on procedures for teaching science today. Clearly there is overlap between the teaching of science and other areas of knowledge. However, we must constantly develop new methods to teach and differentiate between science education and teaching science in response to the changing needs of our students, and we must analyze what role teachers and teacher educators play in both. We must continually examine the methods and concepts involved in developing pedagogical content knowledge in science teachers. Otherwise, the possibility that these routines, based on subjective traditions, prevent emerging processes of educational innovation. Modern science is an enormous field of knowledge in its own right, which is made more expansive when examined within the context of its place in society. We propose the need to design educative interactions around situations that involve science and society. Science education must provide students with all four dimensions of the cognitive process: factual knowledge, conceptual knowledge, procedural knowledge, and metacognitive knowledge. We can observe in classrooms at all levels of education that students understand the concepts better when they have the opportunity to apply the scientific knowledge in a personally relevant way. When students find value in practical exercises and they are provided opportunities to reinterpret their experiences, greater learning gains are achieved. In this sense, a key aspect of educational innovation is the change in teaching methodology. We need new tools to respond to new problems. A shift in teacher education is needed to realize the rewards of situating science questions in a societal context and opening classroom doors to active methodologies in science education to promote meaningful learning through meaningful teaching.     

Predicting academic success for disabled students in higher education

Research has indicated that disabled and nondisabled persons experience communication strained by high levels of uncertainty for both communicators. The purpose of this study was to assess the effect of being disabled on the academic progress of disabled college students. It was felt that academic success will be contingent upon positive communication with faculty, fellow students, and university personnel. A questionnaire assessing the campus' social climate, the quality of its programs and instruction, and the students' academic and career expectations was administered to 100 disabled students. Analyses of the data revealed that the disabled students' motivation was significantly related to their level of social alienation, while the students' perceived competence was most related to their level of social adjustment. The theoretical implications of these findings and avenues for future research are discussed.     

Teacher education students using TPACK in science: a case study

Teacher education is in the grip of change. Due to the new Australian Curriculum, no longer is it possible to plan and implement lessons without considering the inclusion of Information and Communication Technologies. Simply knowing about the latest technology gadgets is not enough. Information literacy is essential in today’s information-rich learning and working environment. Students and teachers must be able to engage with diverse learning technologies efficiently and effectively in the search for the “right information” at the “right time” for the “right purpose”. Key information literacy and inquiry skills have been recognised as vital learning goals by the Australian Curriculum Assessment and Reporting Authority and the International Society for Technology in Education and are thus critical in science teacher education. This paper examines the overlap of technology, pedagogy and science content in the Technological Pedagogical and Content Knowledge (TPACK) framework and its affordances for science educators, at the intersection between technology knowledge, science pedagogy (information literacy and inquiry) and science content knowledge. Following an introduction of the TPACK framework for science education, the paper reports the research findings, which illustrate that 90% of pre-service teachers thought the experimental unit improved their understanding of the inquiry process, 88% reported more confidence in their understanding of science concepts and 94% of students reported an increase in their knowledge and confidence of Web 2.0 tools in supporting scientific inquiry in science. The implications of this study are that the online inquiry improved students’ knowledge and confidence in the skills and processes associated with inquiry and in science concepts.     

Science initial teacher education and superdiversity: educating science teachers for a multi-religious and globalised science classroom

Steven Vertovec (2006, 2007) has recently offered a re-interpretation of population diversity in large urban centres due to a considerable increase in immigration patterns in the UK. This complex scenario called superdiversity has been conceptualised to help illuminate significant interactions of variables such as religion, language, gender, age, nationality, labour market and population distribution on a larger scale. The interrelationships of these themes have fundamental implications in a variety of community environments, but especially within our schools. Today, London schools have over 300 languages being spoken by students, all of whom have diverse backgrounds, bringing with them a wealth of experience and, most critically, their own set of religious beliefs. At the same time, Science is a compulsory subject in England’s national curriculum, where it requires teachers to deal with important scientific frameworks about the world; teaching about the origins of the universe, life on Earth, human evolution and other topics, which are often in conflict with students’ religious views. In order to cope with this dynamic and thought-provoking environment, science initial teacher education (SITE)—especially those catering large urban centres—must evolve to equip science teachers with a meaningful understanding of how to handle a superdiverse science classroom, taking the discourse of inclusion beyond its formal boundaries. Thus, this original position paper addresses how the role of SITE may be re-conceptualised and re-framed in light of the immense challenges of superdiversity as well as how science teachers, as enactors of the science curriculum, must adapt to cater to these changes. This is also the first in a series of papers emerging from an empirical research project trying to capture science teacher educators’ own views on religio-scientific issues and their positions on the place of these issues within science teacher education and the science classroom.     

Practical resources for critical science education in rural Appalachia

This article argues that there is no typical Appalachian experience or community. There is more cultural diversity and global interchange in this region of the U.S. than appears in popular representations of “isolated” Appalachians, which are ironic because of the region’s having been so central to the global extractive economy for centuries. Some pedagogical resources are provided to encourage or contribute to a broader perspective on the possibilities and knowledge centered in rural communities, with Appalachian examples.     

Science education research and cognitive science

Cognitive science has the potential for offering explanatory models for many of the findings of empirical research in science education. In this paper, I use recent editions of international journals of science education to produce a categorisation of types of science education research, and what possible contributions each might make to cognitive science or the potential of results from cognitive science for enriching the science education research accounts. In a short, final section, the relationship of our own cognitive work to cognitive science is explored.     

Relational engagement: Proportional reasoning with bilingual Latino/a students

In this paper, we explored how engagement developed over time during a proportional reasoning unit for a group of US bilingual Latino/a students, with particular attention to aspects of social and cultural activity that supported students’ engagement. Our findings suggest that student mathematical engagement developed primarily as a relational process characterized by students’ social relations across time, their understandings about their relationships with mathematics, and the important relations emerging across proportional reasoning ideas.     

Science education: innovation in rural and remote Queensland schools

Outside its heavily-populated south-eastern corner, Queensland is a huge administrative area with many small, remote communities that can be separated by hundreds of kilometres of dirt road, or, in other areas, not accessible by road. In this study, parents, students and teachers in nine schools from rural and regional Queensland were interviewed about their perceptions of school science. Teachers, parents and students defined remoteness by reference to their social ties, as well as the social capital and resources they drew on to teach science meaning that not only did different groups differ in their interpretations of remoteness; different teachers in similar circumstances also responded differently. Science teachers’ responses to remoteness were related to their perceptions of school-community communication and their perceptions of their freedom to innovate. Teachers who felt that remoteness gave them more freedom and recognised opportunities to utilise their environment created innovative and relevant science programmes. Teachers who felt their remoteness gave them less freedom felt isolated from the community were less likely to innovate.     

Locating the global: culture,language and science education for indigenous students

The international literature suggests the use of indigenous knowledge (IK) and traditional ecological knowledge (TEK) contexts in science education to provide motivation and self‐esteem for indigenous students is widespread. However, the danger of alienating culture (as knowledge) from the language in which the worldview is embedded seems to have been left out of the philosophical and pedagogical debates surrounding research and comment in the field. This paper argues that one of the main ways in which indigenous knowledge systems will survive and thrive is through the establishment of programmes taught through indigenous languages so that a dialectal relationship between language and knowledge is established that continues to act as the wellspring. The article concludes by reviewing the situation in Aotearoa New Zealand with respect to the indigenous population, Maori, and the recent science education initiatives in te reo Maori (Maori language).     

WIST — A science and technology access programme for rural women: The determinants of success

The University of Central Queensland access programme, Women Into Science and Technology (WIST), has successfully attracted and retained a large number of rural women as students. Careful analysis of the needs of rural women has resulted in a distance education mode programme which is community based, has a consultative approach to programme development and monitoring and strong student support systems. These systems include elements of both peer and institutional support. Strong feelings of ownership and belonging, which WIST women have, have contributed to the low drop‐out rate and continuing programme growth.     

Looming crisis in graduate science education: Where are America's top science students?

Only 750 physics doctorates were awarded to American students during 1990–1991 from a population base of over 248 million people. Even institutions such as MIT are having difficulty attracting enough top American students to its graduate programs in the sciences. We discuss some of the reasons for the decline in domestic student participation in the sciences and offer several nuts-and-bolts methods to reverse this trend. Key ingredients include graduate student recruiting, motivational activities to promote the excitement of being a professional scientist, and a reeducation of employers to look more favorably toward hiring students from the basic sciences. The methods have resulted in dramatic changes in the composition of recent graduate classes; at Auburn University we now admit an incoming class composed of over 70% domestic students.     

Science education — I: The spirit of science

In these two essays we explore the questions: what are the essential features of a workable context for science education? What are the givens, the “of courses,” the “fundamental dispositions” toward science and toward education necessary — or at least sufficient — to provide a fertile ground upon which a functional approach to science education can be established? In the present essay it is argued first that science education must reflect that science is a way of thinking — in fact, more comprehensively, a way of being; and second, and that the fundamentally antiauthoritarian spirit of science must be reconciled with education, with its built-in tendency to be authoritarian.     

论美国大学生在校学习的持续性问题--城乡学生的对比分析

本文选取了美国国家教育统计中心收集的长期跟踪数据，描述了美国都市和乡村高中毕业生在高等院校的学习持续性问题，同时分析了影响上述两大群体在校学习持续性的因素。     

The academic success of undocumented Latino students: School programs,non-profit organizations,and social capital

Based on 29 in-depth interviews with undocumented Latino college students and graduates in Southern California, this study explores how academic high achievers obtain the information, resources, and emotional support they need to achieve college-student status. The study highlights the importance of the programs offered by schools and nonprofit organizations to compensate for undocumented Latino students’ lack of social capital and their parents’ lack of human capital. Forging a trusting relationship with teachers and/or counselors remains crucial for navigating the unique application process for undocumented students and for identifying private funding sources.