Jordanian Preservice Primary Teachers' Perceptions of Mentoring in Science Teaching

Quality mentoring is fundamental to preservice teacher education because of its potential to help student and novice teachers develop the academic and pedagogical knowledge and skills germane to successful induction into the profession. This study focused on Jordanian preservice primary teachers' perceptions of their mentoring experiences as these pertain to science teaching. The Mentoring for Effective Primary Science Teaching instrument was administered to 147 senior preservice primary teachers in a university in Jordan. The results indicated that the greater majority of participants did not experience effective mentoring toward creating a supportive and reflexive environment that would bolster their confidence in teaching science; further their understanding of primary science curriculum, and associated aims and school policies; help with developing their pedagogical knowledge; and/or furnish them with specific and targeted feedback and guidance to help improve their science teaching. Substantially more participants indicated that their mentors modeled what they perceived to be effective science teaching. The study argues for the need for science-specific mentoring for preservice primary teachers, and suggests a possible pathway for achieving such a model starting with those in-service primary teachers—much like those identified by participants in the present study—who are already effective in their science teaching.     

Supporting Preservice Elementary Teachers’ Critique and Adaptation of Science Lesson Plans Using Educative Curriculum Materials

Critiquing and adapting curriculum materials are essential teaching practices but challenging for many preservice teachers. This study explores the use of educative curriculum materials—materials intended to support both teacher and student learning—to help preservice elementary teachers develop their pedagogical design capacity for critiquing and adapting lessons. Preservice teachers received educative supports highlighting pedagogical principles and rationales for those principles. When provided with educative supports, most individuals attended to the principles targeted in the supports, engaged in an in-depth analysis with regard to the principles, and used the rationales from the supports to justify their analyses. However, few continued to do so in subsequent analyses when they no longer received support. Implications for science teacher education and curriculum design are discussed.     

Interaction Between Science Teaching Orientation and Pedagogical Content Knowledge Components

The purpose of this case study is to delve into the complexities of how preservice science teachers’ science teaching orientations, viewed as an interrelated set of beliefs, interact with the other components of pedagogical content knowledge (PCK). Eight preservice science teachers participated in the study. Qualitative data were collected in the form of content representation, responses to an open-ended instrument, and semi-structured interviews. Preservice teachers’ orientation and PCK were analyzed deductively. Constant comparison analysis of how their orientation interacted with other PCK components revealed three major themes: (1) one’s purpose for science teaching determines the PCK component(s) with which it interacts, (2) a teacher’s beliefs about the nature of science do not directly interact with his/her PCK, unless those beliefs relate directly to the purposes of teaching science, and (3) beliefs about science teaching and learning mostly interact with knowledge of instructional strategies. Implications for science teacher education and research are discussed.     

Understanding the relationship between Singapore preservice teachers’ ICT course experiences and technological pedagogical content knowledge (TPACK) through ICT course evaluation

Teacher education institutions conduct information and communications technology (ICT) courses to prepare preservice teachers (or initial teacher education candidates) to support their teaching practice with appropriate ICT tools. ICT course evaluations based on preservice teachers’ perception of course experiences are limited in indicating the kinds of ICT integration knowledge or technological pedagogical content knowledge (TPACK) preservice teachers have gained throughout the course. Preservice teachers’ ICT course experiences was found to influence their intentions to integrate ICT but its influence on their TPACK perceptions, if better understood, can inform teacher education institutions about the design of ICT courses. This study describes the design and validation of an ICT course evaluation instrument that examines preservice teachers’ perceptions of ICT course experiences and TPACK. Hierarchical regression analysis was performed on survey results collected from a graduating cohort of 869 Singapore preservice teachers who had undergone a compulsory ICT course during their teacher training program. These preservice teachers were being prepared to teach the different subject areas at primary, secondary, and junior colleges (or postsecondary institutions for 17–19 year olds) in Singapore. The regression model showed that preservice teachers’ perceived TPACK was first influenced by their perceptions of course experiences that supported the development of intermediary TPACK knowledge components such as technological knowledge and technological pedagogical knowledge. The methodological implications for the design of ICT course evaluation surveys and the practical applications of survey results to the refinement of ICT course curriculum are discussed.     

Preservice Teachers' Knowledge of Difficulties in Decimal Numeration

In this study we investigated preservice elementary school teachers' content knowledge and pedagogical content knowledge of decimal numeration. The preservice teachers completed a decimal comparison test, marked items they thought would be difficult for students, and explained why. Only about 80 percent of the sample tested as experts, indicating that a significant proportion of preservice teachers have inadequate content knowledge of decimals. Confusion about the size of decimals in relation to zero was a significant and unexpected difficulty, leading to concerns about the fragmentary nature of the preservice teachers' knowledge. Most preservice teachers were aware of longer-is-larger misconceptions in students, but had little awareness of shorter-is-larger misconceptions. Preservice teachers' explanations for the reasons students might have difficulty demonstrated that many are good at identifying features that make comparisons difficult but less able to explain why these cause trouble. Results point to the need for teacher education to emphasise content knowledge that integrates different aspects of number knowledge, and pedagogical content knowledge that includes a thorough understanding of common difficulties. This revised version was published online in August 2006 with corrections to the Cover Date.     

Primary pre-service teachers' pedagogical reasoning skills

This paper discusses a preliminary investigation into primary pre-service teachers' pedagogical reasoning skills. Results from this investigation led to the development of a problem-based learning model which focused on improving primary pre-service teachers' pedagogical reasoning skills. The problem-based learning model uses pedagogical reasoning as the basis for creating problem situations for the pre-service teachers to investigate. The paper reports on pre-service teachers' views on the use of the approach to improve their pedagogical reasoning skills. Specializations: science teacher education, learning in science, chemistry education. Specializations: student learning, conceptual change, technology education, curriculum evaluation.     

Using analogies to improve the teaching performance of preservice teachers

Prior research in both education and cognitive science has identified analogy making as a powerful tool for explanation as well as a fundamental mechanism for facilitating an individual's construction of knowledge. While a considerable body of research exists focusing on the role analogy plays in learning science concepts, relatively little is known about how instruction in the use of analogies might influence the teaching performance of preservice teachers. The primary objective of this study was to investigate the relationship between pedagogical analogy use and pedagogical reasoning ability in a sample of preservice elementary teachers (PTs), a group that has been identified for their particular difficulties in teaching science. The study utilized a treatment/contrast group design in which the treatment group was provided instruction that guided them in the generation of analogies to aid in the explanation phase of learning cycle lessons. A relationship between analogy use and positive indicants of teaching performance was observed and a case study of a low performing preservice teacher who drastically improved teaching performance using analogy‐based pedagogy is presented. A notable effect on conceptual understanding of Newton's Third Law as a result of two brief analogy‐based demonstration lessons was also observed. © 2007 Wiley Periodicals, Inc. J Res Sci Teach 44: 565–585, 2007.     

Using videodisk instruction in an elementary science methods course: Remediating science knowledge deficiencies and facilitating science teaching attitudes

Inadequate science knowledge of preservice teachers enrolled in science methods courses not only limits their mastery of effective teaching practices, but also may foster negative attitudes toward science teaching. This study investigated the influence of science knowledge upon attitudes toward science teaching in a one-semester elementary science methods course by embedding a videodisk-based instructional component to remediate knowledge deficiencies. Preservice teachers in the experimental group first learned core concepts in physical and earth science through a series of 24 interactive videodisk lessons and then used the concepts as a foundation for preparing and presenting model science lessons. Results showed that the experimental group overcame their initial knowledge deficiencies by mastering the core concepts presented (mean proportion correct on mastery test = 0.91), with multivariate covariance analysis confirming that the experimentals gain in science knowledge was significantly greater than comparable controls in the parallel science methods sections. Additionally, as a result of mastering the core concepts underlying earth science, preservice teachers using the videodisk instruction also displayed significantly greater confidence in their understanding of science knowledge and more positive attitudes toward science teaching at the elementary levels. Implications for improving elementary science teaching through preservice and in-service training are discussed.     

Curriculum design for inquiry: Preservice elementary teachers' mobilization and adaptation of science curriculum materials

Curriculum materials are crucial tools with which teachers engage students in science as inquiry. In order to use curriculum materials effectively, however, teachers must develop a robust capacity for pedagogical design, or the ability to mobilize a variety of personal and curricular resources to promote student learning. The purpose of this study was to develop a better understanding of the ways in which preservice elementary teachers mobilize and adapt existing science curriculum materials to plan inquiry‐oriented science lessons. Using quantitative methods, we investigated preservice teachers' curriculum design decision‐making and how their decisions influenced the inquiry orientations of their planned science lessons. Findings indicate that preservice elementary teachers were able to accurately assess how inquiry‐based existing curriculum materials are and to adapt them to make them more inquiry‐based. However, the inquiry orientations of their planned lessons were in large part determined by how inquiry‐oriented curriculum materials they used to plan their lessons were to begin with. These findings have important implications for the design of teacher education experiences that foster preservice elementary teachers' pedagogical design capacities for inquiry, as well as the development of inquiry‐based science curriculum materials that support preservice and beginning elementary teachers to engage in effective science teaching practice. © 2009 Wiley Periodicals, Inc. J Res Sci Teach 47:820–839, 2010     

“Before teaching this I'd do a lot of reading” preparing primary student teachers to teach science

The subject knowledge primary teachers have as a basis for their teaching of science has become a major concern in preservice and inservice education in many countries, including Australia, the UK and the USA. There are differing views among policy makers, teacher educators and student teachers about precisely what primary teachers need to know and how they are best prepared for teaching science. This article reports an investigation into the science content and pedagogic content knowledge of student teachers a university in the UK. Many students said that when approaching a real teaching situation they would be able to prepare themselves adequately by independent research using published sources. The data from this study revealed that half the group of students were able to do so with guidance although their initial background knowledge of science was weak. Implications for the preparation of primary student teachers are discussed.     

Integrating Technology in Physical Education Teacher Education: A Socialization Perspective

ABSTRACT

Physical education teacher education (PETE) programs are encouraged to develop teachers capable of delivering technology integrated learning experiences. Technological pedagogical content knowledge provides a framework for integrating technology into teacher education programs. Occupational socialization theory describes an educator’s recruitment, training, and socialization in the teaching profession. The purpose of this article is to propose a conceptual framework for helping preservice physical educators develop technological pedagogical content knowledge that is grounded in occupational socialization theory. We specifically recommend a four-phase approach to help preservice teachers (a) build their knowledge and learn to value technology in physical education, (b) observe and explore through instructor modeling and integration, (c) experiment and collaborate with mentoring and scaffolding, and (d) discover through innovation and utilization. These suggestions acknowledge the sociopolitical aspects of learning to teach with technology and implications are discussed along with the need to help preservice teachers transfer technology integration into their professional careers.     

Teaching for tomorrow: An exploratory study of prekindergarten teachers’ underlying assumptions about how children learn

This study investigated eight prekindergarten teachers’ underlying assumptions about how children learn, and how these assumptions were used to inform and enact instruction. By contextualizing teachers’ knowledge and understanding as it is used in practice we were able to provide unique insight into the work of teaching. Participants focused on children’s ability to remember information, frequently through engagement and repetition. Teachers also anticipated what children would be learning in the early elementary years and taught that content, yet they did not necessarily expect children to remember the information, or even know if children learned the information. Implications for the design of both preservice and in-service teacher education are discussed. This includes helping teachers develop a strong foundational understanding of how children learn, establishing the pedagogical content knowledge relevant to teaching advanced symbol systems like literacy, and shifting pedagogical reasoning about practice. Given the link between the quality of instructional support and learning in the early years, developing the early childhood teaching force’s capacity to use knowledge to reason skillfully about teaching offers a critical lever for creating robust learning in the early years.     

Balancing Teacher and Student Roles in Elementary Classrooms: Preservice elementary teachers’ learning about the inquiry continuum

Using the National Research Council's inquiry continuum framework, we use a multiple-case study research design to investigate the teacher- and student-directedness of elementary preservice teachers’ planned and enacted science lessons and their pedagogical reasoning about science instruction during a semester-long science methods course. Our specific research questions were (1) What ideas do elementary preservice teachers bring to a science teaching methods course about the inquiry continuum? and (2) How do their ideas about the inquiry continuum change over the course of the semester through engaging in planning, enactment, and reflection upon science instruction? Participants’ course artifacts (journals, reflective teaching assignments, and lesson plan rationales), interviews, and field observations of their enacted science lessons served as data for this study. Findings show that although the preservice teachers began the semester defining inquiry as highly student-directed, their ideas and definitions broadened over the course of the semester to include and embrace more teacher-directed forms of inquiry. Their early science lessons were more student-directed but, as they encountered challenges engaging in inquiry-based instruction and increasingly emphasized students’ learning needs, they began to plan and enact lessons that were more teacher-directed. Teacher education programs need to explicitly emphasize these variations of inquiry as a core component of supporting preservice teachers’ learning to teach science as inquiry.     

Preservice Elementary Teachers' Evaluations of Elementary Students' Scientific Models: An aspect of pedagogical content knowledge for scientific modeling

Part of the work of teaching elementary science involves evaluating elementary students' work. Depending on the nature of the student work, this task can be straightforward. However, evaluating elementary students' representations of their science learning in the form of scientific models can pose significant challenges for elementary teachers. To address some of these challenges, we incorporated a modeling-based elementary science unit in our elementary science teaching methods course to support preservice teachers in gaining knowledge about and experience in evaluating students' scientific models. In this study, we investigate the approaches and criteria preservice elementary teachers use to evaluate elementary student-generated scientific models. Our findings suggest that with instruction, preservice elementary teachers can adopt criterion-based approaches to evaluating students' scientific models. Additionally, preservice teachers make gains in their self-efficacy for evaluating elementary students' scientific models. Taken together, these findings indicate that preservice teachers can begin to develop aspects of pedagogical content knowledge for scientific modeling.     

Developing an Instrument to Examine Preservice Teachers’ Pedagogical Development

National and international reform documents have forged blueprints for advancing science education. Coursework for preservice teachers needs to correspond to these documents by providing learning experiences that develop preservice teachers’ capabilities to plan and implement reform measures. Using a pretest–posttest design, responses from 59 2nd-year preservice teachers from the same university were compared after involvement in an elementary science pedagogy coursework. The survey, which was linked to the course outcomes (constructs) and multiple indicators, measured the preservice teachers’ perceptions of their development towards becoming elementary science teachers. A pretest–posttest survey linked to course outcomes can be employed to assess perceived pedagogical development of preservice teachers, which can inform further teaching practices for implementing science education reform agendas.     

Using modelling to make culturally responsive pedagogy explicit in preservice teacher education in Finland

Despite multiculturalism being discussed in teacher education, teachers still often feel insecure in the classroom around developing meaningful practices. This might be due to several issues about how preservice teachers are taught. In this article, modelling culturally responsive pedagogy is demonstrated as a promising strategy in shaping preservice teachers’ learning experiences and facilitating the finding of pedagogical responses in their future work. The article examines preservice teachers’ awareness of modelling as a teaching strategy in a multicultural education course in Finland, and the ways in which they connected the modelled strategy to their own learning and intentions for future teaching. A total of 246 reflective learning journals were analysed qualitatively, using a constant comparison approach. The results indicate that preservice teachers recognised and reflected on modelling culturally responsive pedagogy. They highlighted several aspects of the culturally responsive activities, environment and teacher educator behaviours modelled for them. For some preservice teachers, this recognition stayed at the level of personal awareness of own learning on the course, but for others these revelations were springboards to start forming ideas about future teaching practice. Preservice teachers articulated their intentions about the kind of teachers they would like to become, their principles in teaching, as well as specific teaching/learning activities. We present how the modelling of culturally responsive pedagogy strategies allowed preservice teachers to self-reflect, critique and connect their own learning experiences to future practice. Therefore, modelling culturally responsive pedagogy is argued to be a fruitful strategy in teacher education.     

Preservice Teachers' Development and Implementation of Science Performance Assessment Tasks

Preservice teachers in a science methods course were provided instruction on performance assessment, then guided through a design and implementation process of performance assessment tasks. We assessed the effect of designing and implementing a performance assessment task on preservice teachers' understanding of standards-based assessment. The findings show that these preservice teachers improved in their understanding of assessment as a formative process as well as their science content understanding of the topic addressed in their designed task. We found that preservice teachers need to experiment with performance assessment tasks in an authentic context in order to understand the full potential and value of the task.     

Primary science and technology: How confident are teachers?

Science and Technology is a new Key Learning Area in NSW Primary Schools. Survey results are used to compare preservice teachers (on entry and in the third year of their degree) with practising teachers, on their confidence in their knowledge about the topics in the syllabus, as well as their confidence to teach these topics. Reasons for stated confidence (or lack of it) are reported together with preservice and practising teachers' views about what needs to be done to improve their confidence. Preservice and practising teachers' opinions of the major sources of their knowledge about the topics in the new syllabus are contrasted. Results are discussed in the light of severalDiscipline Review recommendations. Specializations: primary science teacher education; environmental education; curriculum development.     

Preservice teachers’ expressed awarenesses: emerging threads of retro-spection of learning and pro-spection of teaching

In this paper, we report an enquiry into elementary preservice teachers’ learning, as they engage in doing mathematics for themselves. As a group of researchers working in elementary Initial Teacher Education in English universities, we co-planned and taught sessions on growing pattern generalisation. Following the sessions, interviews of fifteen preservice teachers at two universities focused on their expressed awareness of their approach to the mathematical activity. Preservice teachers’ prospective planning and post-teaching evaluations of similar activities in their classrooms were also examined. We draw on aspects of enactivism and the notion of reflective “spection” in the context of teacher learning, tracing threads between preservice teachers’ retro-spection of learning and pro-spection of teaching. Our analysis indicates that increasing sensitivity to their own embodied processes of generalisation offers opportunities for novice teachers to respond deliberately, rather than to react impulsively, to different pedagogical possibilities. The paper contributes a new dimension to the discussion about the focus of novice elementary school teachers’ retrospective reflection by examining how deliberate retrospective analysis of doing mathematics, and not only of teaching actions, can develop awarenesses that underlie the growth of expertise in mathematics teaching. We argue that engaging preservice teachers in mathematics to support deliberate retrospective analysis of their mathematics learning and prospective consideration of the implications for teaching can enable more critical pedagogical choices.