Supporting new science teachers in pursuing socially just science education

This forum explores contradictions that arose within the partnership between Teach for America (TFA) and a university teacher education program. TFA is an alternate route teacher preparation program that places individuals into K-12 classrooms in low-income school districts after participating in an intense summer training program and provides them with ongoing support. This forum is a conversation about the challenges we faced as new science teachers in the TFA program and in the Peace Corps program. We both entered the teaching field with science degrees and very little formal education in science education. In these programs we worked in a community very different from the one we had experienced as students. These experiences allow us to address many of the issues that were discussed in the original paper, namely teaching in an unfamiliar community amid challenges that many teachers face in the first few years of teaching. We consider how these challenges may be amplified for teachers who come to teaching through an alternate route and may not have as much pedagogical training as a more traditional teacher education program provides. The forum expands on the ideas presented in the original paper to consider the importance of perspectives on socially just science education. There is often a disconnect between what is taught in teacher education programs and what teachers actually experience in urban classrooms and this can be amplified when the training received through alternate route provides a different framework as well. This forum urges universities and alternate route programs to continue to find ways to authentically partner using practical strategies that bring together the philosophies and goals of all stakeholders in order to better prepare teachers to partner with their students to achieve their science learning goals.     

Student teachers' entry perceptions about teaching primary science: Does a first degree make a difference?

It is problematic whether primary teachers benefit by completing a first degree especially when the teaching of specific subjects, here science, is the focus of attention. This study reports the comparative results of interviewing thirteen Canadian and ten Australian student teachers, both about to commence their Bachelor of Education. The Canadian students had completed an initial degree while nine of the Australian students were school leavers. The interviews, which explored views about teaching primary science, were analysed with this factor in mind. Student teacher perceptions reported include: how to recognise a “good” primary science teacher; perceptions of self as a “good” primary science teacher; expectations of how the teacher education program could assist their science teaching; and whether (for the Canadian students) the initial degree will help in becoming a primary science teacher. Analysis of the interviews suggests possible influences a first degree (among other factors) may have on perceptions related to primary science teaching and raises questions about what is the best general approach for preparing primary teachers to teach science effectivly.     

Learning to teach science in urban schools by becoming a researcher of one’s own beginning practice

An urgent goal for science teacher educators is to prepare teachers to teach science in meaningful ways to youth from nondominant backgrounds. This preparation is challenging, for it asks teachers to critically examine how their pedagogical practices might adaptively respond to students and to science. It asks, essentially, for new teachers to become researchers of their own beginning practice. This study explores the story of Ben as he coauthored a transformative action research project in an urban middle school as part of a teacher education program and, later, over his first year of teaching at that same school. We describe how Ben and his partner teacher created innovative spaces for science learning. This offered Ben an opportunity to make some of his deeply engrained pedagogical beliefs come alive within a context of distributed expertise, which provided for him a space of moderate risk where he could afford the chances of failure without undermining how he felt about his own capacity as a teacher. Our study highlights the importance of creating reform opportunities within the context of teacher education programs that may help beginner teachers construct positive images of teaching that they can hold on to in their future practice.     

Science Students' Perceptions of Engaging Pedagogy

During their years of schooling, students develop perceptions about learning and teaching, including the ways in which teachers impact on their learning experiences. This paper presents student perceptions of teacher pedagogy as interpreted from a study focusing on students' experience of Year 7 science. A single science class of 11 to 12 year old students and their teacher were monitored for the whole school year, employing participant observation, and interviews with focus groups of students, their teacher and other key members of the school. Analysis focused on how students perceived the role of the teacher's pedagogy in constructing a learning environment that they considered conducive to engagement with science learning. Two areas of the teacher's pedagogy are explored from the student perspective of how these affect their learning: instructional pedagogy and relational pedagogy. Instructional pedagogy captures the way the instructional dialogue developed by the teacher drew the students into the learning process and enabled them to “understand” science. How the teacher developed a relationship with the students is captured as relational pedagogy, where students said that they learned better when teachers were passionate in their approach to teaching, provided a supportive learning environment and made them feel comfortable. The ways in which the findings support the direction for the middle years and science education are considered.     

Learning in interactive science centres

The potential of informal sources of science learning to supplement and interact with formal classroom science is receiving increasing recognition and attention in the research literature. In this study, a phenomenographic approach was used to determine changes in levels of understanding of 27 grade 7 primary school children as a result of a visit to an interactive science centre. The results showed that most students did change their levels of understanding of aspects of the concept “sound”. The study also provides information which will be of assistance to teachers on the levels of understanding displayed by students on this concept. Specializations: informal science learning, science curriculum Specializations: science education, science teacher education, conceptual change, learning environments.     

Education for sustainable development in initial teacher training: issues for interdisciplinary collaboration

This article considers interdisciplinary approaches to education for sustainable development (ESD) in initial teacher training (ITT) partnerships in the light of recent national policy initiatives. In identifying challenges for interdisciplinary innovation, it brings to bear research evidence from three sources: questionnaires sent to ITT partnership schools; questionnaire surveys of geography and science graduate student teachers; and questionnaire surveys of their school mentors. Key findings are that: schools are not yet well developed as sites for student teacher learning in the domain; student teachers generally have greater understanding of sustainable development than their mentors; geography mentors perceive themselves to be better prepared for mentoring in this area than their science counterparts (who feel ill‐prepared); for both students and mentors, there are significant gaps in understanding of ESD compared with representations found in the literature. Some implications and possible ways forward for interdisciplinary ESD in teacher education partnerships are discussed.     

Closing the Gap: Inquiry in Research and the Secondary Science Classroom

Teaching students how to conduct authentic scientific inquiry is an essential aspect of recent science education reform efforts. Our National Science Foundation-funded GK-12 program paired science graduate students—fellows—with secondary science teachers in order to enhance inquiry-based instruction. This research examined the roles of the fellows, teachers, and school culture in the implementation of inquiry and the fellows’ conceptions of classroom inquiry versus that in their own research. Qualitative data were collected for two academic years. Overall, the classrooms shifted toward a more inquiry-oriented approach over the academic year. Several aspects of school culture influenced inquiry implementation. Fellows described their research as similar in overall structure but less constrained by known concepts, less guided by mentors, and more in-depth than that of secondary school students. The teacher-fellow scientist partnership is a potentially effective professional development model to create positive and lasting change within the science classroom.     

Neuroscience in middle schools: a professional development and resource program that models inquiry-based strategies and engages teachers in classroom implementation

The Department of Neuroscience at the University of Minnesota and the Science Museum of Minnesota have developed and implemented a successful program for middle school (grades 5-8) science teachers and their students, called Brain Science on the Move. The overall goals have been to bring neuroscience education to underserved schools, excite students about science, improve their understanding of neuroscience, and foster partnerships between scientists and educators. The program includes BrainU, a teacher professional development institute; Explain Your Brain Assembly and Exhibit Stations, multimedia large-group presentation and hands-on activities designed to stimulate student thinking about the brain; Class Activities, in-depth inquiry-based investigations; and Brain Trunks, materials and resources related to class activities. Formal evaluation of the program indicated that teacher neuroscience knowledge, self-confidence, and use of inquiry-based strategies and neuroscience in their classrooms have increased. Participating teachers increased the time spent teaching neuroscience and devoted more time to "inquiry-based" teaching versus "lecture-based teaching." Teachers appreciated in-depth discussions of pedagogy and science and opportunities for collegial interactions with world-class researchers. Student interest in the brain and in science increased. Since attending BrainU, participating teachers have reported increased enthusiasm about teaching and have become local neuroscience experts within their school communities.     

A ‘Partnership in Teaching Excellence’: ways in which one school–university partnership has fostered teacher development

This paper reports on some of the factors that contribute to an effective partnership between an urban Australian university and a State Department of Education. The partnership, currently in its third year of implementation, entails as a key purpose the development of school Centres of Excellence which contribute to the preparation of pre-service teachers. The foundational aims of the partnership include addressing the gap between theory and practice, facilitating pre-service teacher recruitment and providing a guarantee of future employment for identified Faculty of Education students through the provision of pre-service teacher scholarships. Data for the study were collected via two program reviews, conducted at the end of the first and third years of the program. Findings point to ways in which the partnership has enhanced pre-service teacher engagement and learning and also indicate ways in which partners in both institutions might further strengthen the partnership.     

Helping students make meaning of authentic investigations: findings from a student–teacher–scientist partnership

As student–teacher–scientist partnerships become more widespread, there is a need for research to understand the roles assumed by scientists and teachers as they interact with students in general and in inquiry learning environments in particular. Although teacher roles during inquiry learning have been studied, there is a paucity of research about the roles that scientists assume in their interactions with students. Socio-cultural perspectives on learning emphasize social interaction as a means for students to make meaning of scientific ideas. Thus, this naturalistic study of classroom discourse aims to explore the ways scientists and teachers help high school students make meaning during authentic inquiry investigations. Conversational analysis is conducted of video recordings of discussions between students and teachers and students and scientists from two instances of a student–teacher–scientist partnership program. A social semiotic analytic framework is used to interpret the actions of scientists and teachers. The results indicate a range of common and distinct roles for scientists and teachers with respect to the conceptual, social, pedagogical, and epistemological aspects of meaning making. While scientists provided conceptual and epistemological support related to their scientific expertise, such as explaining scientific phenomena or aspects of the nature of science, teachers played a critical role in ensuring students’ access to this knowledge. The results have implications for managing the division of labor between scientists and teachers in partnership programs.     

Same school,separate worlds: A sociocultural study of identity,resistance, and negotiation in a rural,lower track science classroom

This ethnographic study examined how rural, lower track, underrepresented students made sense of their place in school and what role school science played in their cultural reproduction. The objectives of the study were to identify key components of science classroom discourse, analyze means of negotiating these components, and explicate participants' beliefs and roles in defining microcultural identities specific to rural, underrepresented school contexts. Eight students and their teacher participated in this study, which drew heavily upon teacher and student revoicing of common events. Results showed that the quality of science instruction was subverted through a process of negotiation between students and teachers in the context of low expectations and the school culture. Implications for research and practice are discussed. © 2001 John Wiley & Sons, Inc. J Res Sci Teach 38: 574–598, 2001     

The Effect of a Collaborative Mentoring Program on Beginning Science Teachers' Inquiry-based Teaching Practice

This study investigated how a collaborative mentoring program influenced beginning science teachers' inquiry-based teaching and their reflection on practice. The one-year program consisted of five one-on-one mentoring meetings, weekly science education seminars, weekly mentoring group discussions, and self-evaluation activities. The participants were three beginning science teachers and three mentors at the middle school level (7–9th grades) in an urban area of South Korea. For each beginning teacher, five lessons were evaluated in terms of lesson design/implementation, procedural knowledge, and classroom culture by using the Reformed Teaching Observation Protocol. Five aspects of the beginning teachers' reflections were identified. This study showed that a collaborative mentoring program focusing on inquiry-based science teaching encouraged the beginning teachers to reflect on their own perceptions and teaching practice in terms of inquiry-based science teaching, which led to changes in their teaching practice. This study also highlighted the importance of collaborative interactions between the mentors and the beginning teachers during the mentoring process.     

INSTRUCTIONAL ACTIVITIES AND GROUP WORK IN THE US INCLUSIVE HIGH SCHOOL CO-TAUGHT SCIENCE CLASS

In the US, there is a significant number of learning-disabled high school students included in regular science classrooms. It has been argued that students with learning disabilities can succeed in science if they receive the kind of instruction they need. To facilitate such instruction, the special education teacher is often incorporated into the class along with the learning disabled students. We observed 53 high school science lessons from ten pairs of science and special-education teachers who were responsible for delivering instruction to groups of students, some of whom were learning-disabled. We analyzed narrative notes collected in these lessons reflecting the kinds of classroom activities, organization of work, and teachers’ roles. In addition, we interviewed the teachers individually to gain a better understanding of these inclusive classes. The underlying question of this research was whether inclusive classes with two teachers delivered the type of science education that is better than solo-teaching in addressing the needs of learning-disabled students. Our evidence indicates that even with a special-education teacher present in the class, learning-disabled students usually did not receive a science education that met their needs. We elaborate on the reasons for this problem and make suggestions for improvement.     

Providing Undergraduate Science Partners for Elementary Teachers: Benefits and Challenges

Undergraduate college “science partners” provided content knowledge and a supportive atmosphere for K–5 teachers in a university–school professional development partnership program in science instruction. The Elementary Science Education Partners program, a Local Systemic Change initiative supported by the National Science Foundation, was composed of four major elements: 1) a cadre of mentor teachers trained to provide district-wide teacher professional development; 2) a recruitment and training effort to place college students in classrooms as science partners in semester-long partnerships with teachers; 3) a teacher empowerment effort termed “participatory reform”; and 4) an inquiry-based curriculum with a kit distribution and refurbishment center. The main goals of the program were to provide college science students with an intensive teaching experience and to enhance teachers'' skills in inquiry-based science instruction. Here, we describe some of the program''s successes and challenges, focusing primarily on the impact on the classroom teachers and their science partners. Qualitative analyses of data collected from participants indicate that 1) teachers expressed greater self-confidence about teaching science than before the program and they spent more class time on the subject; and 2) the college students modified deficit-model negative assumptions about the children''s science learning abilities to express more mature, positive views.     

Learning to learn in informal science settings

Visits to museums and science centres are a part of most school science programs- but are they really learning experiences? By accompanying classes on visits and talking with the teachers and students during and after these visits, information has been gathered on the ways in which school groups currently use visits to two informal science learning settings in Sydney- a science education centre and a large museum. Comparison of the teacher and student behaviours on these visits with current views on good teaching/learning practice, reveals considerable anomalies. At the same time, reported studies of museum visitors suggest that family groups use museums for learning in ways which are quite different from the way most school groups do. Can these apparent mismatches be translated into a pathway for developing new approaches to learning in informal settings?     

Science education through informal education

To develop the pedagogic efficiency of informal education in science teaching, promoting a close cooperation between institutions is suggested by Monteiro, Janerine, de Carvalho, and Martins. In their article, they point out effective examples of how teachers and educators work together to develop programs and activities at informal education places such as science museums. Their study explored and discussed the viability and relevancy of school visits to museums and possibilities to enhance the connection between students’ visits in informal contexts and their learning in schools. Given that students learn science by crossing the boundaries of formal and informal learning contexts, it is critical to examine ways of integrated and collaborative approach to develop scientific literacy to help students think, act and communicate as members of problem solving communities. In this forum, we suggest the importance of students’ lifeworld contexts in informal learning places as continuum of Monteiro, Janerine, de Carvalho, and Martins’ discussion on enhancing the effectiveness of informal learning places in science education.     

The UNESCO‐UNEP Programme in Environmental Education

A shortage of qualified science teachers has been recognized as a serious problem in the field of education in many countries. Taiwan, however, has successfully recruited graduate-level science students into teaching through newly established teacher education programs at universities in recent years. This study seeks to examine why such students are motivated for entry into teaching. In-depth interviews of 33 graduate science students from one teacher education program and a survey of 101 students from nine teacher education programs at universities in Taiwan were conducted. Results show that these students were attracted to teaching by an early exposure to science teaching in informal settings and their perceptions of handsome material rewards, favorable working conditions, and relatively high social status of teaching. The cultural roots of these factors are discussed; implications and limitations of the results are suggested.