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1.
Renee Cole Nicole Becker Marcy Towns George Sweeney Megan Wawro Chris Rasmussen 《International Journal of Science and Mathematics Education》2012,10(1):193-211
In this report, we adapt and extend a methodology for documenting the collective production of meaning in a classroom community.
A cornerstone of the methodological approach that we develop is a close examination of classroom discourse. Our efforts to
analyze the collective production of meaning by examining classroom interaction are compatible with the relatively recent
emphasis in mathematics and science education research that focuses on how communities of learners establish ideas through
discourse and inquiry. The methodological approach we take builds on and extends an approach from mathematics education that
uses Toulmin’s argumentation model to document and analyze students’ conceptual progress. Our modification introduces a new
criterion for empirically demonstrating when particular ways of reasoning become part of the normative practices of the community.
An example from an undergraduate course in physical chemistry is used to illustrate the methodology. 相似文献
2.
Antonia Larrain Paulina Freire Christine Howe 《International Journal of Science Education》2013,35(6):1017-1036
Since the late 1990s, there has been consensus among educational researchers that argumentation should play a central role in science education. Although there has been extensive relevant research, it is not clear enough how oral argumentation spontaneously occurs in science teaching. This is particularly important with regard to the empirical evidence suggesting the effect of discussion of contradictory views on scientific learning. In order to contribute to the research on argumentation in science teaching, we conducted a study that aims to sketch a panoramic view of the uses of oral argumentation in Chilean middle-school science teaching. A total of 153 videotaped science lessons were observed, involving students aged 10–11 and 12–13. Whole-class argumentative discourse was analysed as a function of thematic episodes and teachers' and students' utterances. Results suggest that argumentative discourse in which contradictory points of view are discussed is scarce but when it occurs it does so predominantly within discourse among students. On the contrary, argumentation aimed at justifying points of view is widely used, even more so when students are older. 相似文献
3.
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. 相似文献
4.
Alejandro J. Gallard Mart��nez 《Cultural Studies of Science Education》2011,6(3):719-723
This forum considers argumentation as a means of science teaching in South African schools, through the integration of indigenous
knowledge (IK). It addresses issues raised in Mariana G. Hewson and Meshach B. Ogunniyi’s paper entitled: Argumentation-teaching
as a method to introduce indigenous knowledge into science classrooms: opportunities and challenges. As well as Peter Easton’s:
Hawks and baby chickens: cultivating the sources of indigenous science education; and, Femi S. Otulaja, Ann Cameron and Audrey
Msimanga’s: Rethinking argumentation-teaching strategies and indigenous knowledge in South African science classrooms. The
first topic addressed is that implementation of argumentation in the science classroom becomes a complex endeavor when the
tensions between students’ IK, the educational infrastructure (allowance for teacher professional development, etc.) and local
belief systems are made explicit. Secondly, western styles of debate become mitigating factors because they do not always
adequately translate to South African culture. For example, in many instances it is more culturally acceptable in South Africa
to build consensus than to be confrontational. Thirdly, the tension between what is “authentic science” and what is not becomes
an influencing factor when a tension is created between IK and western science. Finally, I argue that the thrust of argumentation
is to set students up as “scientist-students” who will be considered through a deficit model by judging their habitus and
cultural capital. Explicitly, a “scientist-student” is a student who has “learned,” modeled and thoroughly assimilated the
habits of western scientists, evidently—and who will be judged by and held accountable for their demonstration of explicit
related behaviors in the science classroom. I propose that science teaching, to include argumentation, should consist of “listening
carefully” (radical listening) to students and valuing their language, culture, and learning as a model for
“science for all”. 相似文献
5.
Mats Gunnar Lindahl 《Science & Education》2010,19(9):867-894
Two important roles of education are to provide students with knowledge for their democratic participation in society and
to provide knowledge for a future profession. In science education, students encounter values that may be in conflict with
their worldview. Such conflicts may, for example, lead to constructive reflections as well as rejection of scientific knowledge
and technology. Students’ ways of reasoning are important starting points for discussing problematic issues and may be crucial
for constructive dialogues in the classroom. This study investigates students’ reasoning about conflicting values concerning
the human-animal relationship exemplified by the use of genetically modified pigs as organ donors for xenotransplantation.
Students’ reasoning is analyzed using Giddens’ concepts of disembedded and embedded practices in parallel with moral philosophical
theories in a framework based on human-animal relationships. Thirteen students were interviewed and their stances categorized.
Kantian deontological and classical utilitarian ethics were found within the patronage and the partnership models. These students
appreciated expert knowledge but those using the partnership model could not accept xenotransplantation if pigs were to be
killed. Students using care ethics did not appreciate expert knowledge since it threatened naturalness. The results suggest
that stances against the use of scientific knowledge are more problematic than knowledge per se, and that conflicting stances
have similarities that present opportunities for understanding and development of students’ argumentation skills for future
participation in societal discourse on utilizing expert knowledge. Furthermore it is argued that science education could benefit
from a higher awareness of the presence of different morals. 相似文献
6.
7.
J. Lawrence Bencze G. Michael Bowen 《International Journal of Science and Mathematics Education》2009,7(1):133-159
School science systems tend to emphasize teaching and learning about achievements of science (such as laws and theories) at
the expense of providing students with opportunities to develop realistic conceptions about science and science inquiry and
expertise they could use to conduct their own science inquiry projects. Among reasons for such an emphasis, teachers’ lack
of experiences with realistic science inquiry appears to be particularly problematic. Accordingly, we engaged student-teachers
in a university-based course that attempted to balance instruction about science and science inquiry with student-teachers’
own theorization about science and science inquiry. Qualitative data collected mainly from nine student-teachers in four focus
groups indicate that these student-teachers’ motivation for promoting student-led science inquiry projects in schools significantly
increased by the end of the course. Analyses suggest that this outcome was influenced by changes in their conceptions about
the nature of science, changes in how they associated science inquiry with student learning, and the inductive-deductive dialectic
immersion that was built into their pre-service methods course. Implications of these findings for science teacher education
are explored in this paper. 相似文献
8.
Yasemin Özdem Yilmaz Jale Cakiroglu Hamide Ertepinar Sibel Erduran 《International Journal of Science Education》2013,35(11):1443-1464
ABSTRACTArgumentation has been a prominent concern in science education research and a common goal in science curriculum in many countries over the past decade. With reference to this goal, policy documents burden responsibilities on science teachers, such as involving students in dialogues and being guides in students’ spoken or written argumentation. Consequently, teachers’ pedagogical practices regarding argumentation gain importance due to their impact on how they incorporate this practice into their classrooms. In this study, therefore, we investigated the instructional strategies adopted by science teachers for their argumentation-based science teaching. Participants were one elementary science teacher, two chemistry teachers, and four graduate students, who have a background in science education. The study took place during a graduate course, which was aimed at developing science teachers’ theory and pedagogy of argumentation. Data sources included the participants’ video-recorded classroom practices, audio-recorded reflections, post-interviews, and participants’ written materials. The findings revealed three typologies of instructional strategies towards argumentation. They are named as Basic Instructional Strategies for Argumentation, Meta-level Instructional ?St??rategies for ?Argumentation, and Meta-strategic Instructional ?St??rategies for ?Argumentation. In conclusion, the study provided a detailed coding framework for the exploration of science teachers’ instructional practices while they are implementing argumentation-based lessons. 相似文献
9.
F??mi S. ��t��l��j�� Ann Cameron Audrey Msimanga 《Cultural Studies of Science Education》2011,6(3):693-703
Our response to Hewson and Ogunniyi’s paper focuses, on the one hand, on some of the underlying tensions associated with alinging
indigenous knowledge systems with westernized science in South African science classrooms, as suggested by the new, post-apartheid,
curriculum. On the other hand, the use of argumentation as a vehicle to accomplish the alignment when the jury is still out
on the appropriateness of argumentation as a pedagogical and research tool heightens the tension. We argue that the need for
education stakeholders from indigenous heritages to value, know and document their own indigenous knowledge becomes paramount.
The textualizing of indigenous knowledge, as has been done in western science, will create repositories for teachers to access
and may help with the argumentation strategies such as advocated by the authors. 相似文献
10.
Kelly Riedinger Gili Marbach-Ad J. Randy McGinnis Emily Hestness Rebecca Pease 《Journal of Science Education and Technology》2011,20(1):51-64
We investigated curricular and pedagogical innovations in an undergraduate science methods course for elementary education
majors at the University of Maryland. The goals of the innovative elementary science methods course included: improving students’
attitudes toward and views of science and science teaching, to model innovative science teaching methods and to encourage
students to continue in teacher education. We redesigned the elementary science methods course to include aspects of informal
science education. The informal science education course features included informal science educator guest speakers, a live
animal demonstration and a virtual field trip. We compared data from a treatment course (n = 72) and a comparison course (n = 26). Data collection included: researchers’ observations, instructors’ reflections, and teacher candidates’ feedback. Teacher
candidate feedback involved interviews and results on a reliable and valid Attitudes and Beliefs about the Nature of and the Teaching of Science instrument. We used complementary methods to analyze the data collected. A key finding of the study was that while benefits
were found in both types of courses, the difference in results underscores the need of identifying the primary purpose for
innovation as a vital component of consideration. 相似文献
11.
Nina Christenson Shu-Nu Chang Rundgren Hans-Olof H?glund 《Journal of Science Education and Technology》2012,21(3):342-352
To achieve the goal of scientific literacy, the skills of argumentation have been emphasized in science education during the
past decades. But the extent to which students can apply scientific knowledge to their argumentation is still unclear. The
purpose of this study was to analyse 80 Swedish upper secondary students’ informal argumentation on four socioscientific issues
(SSIs) to explore students’ use of supporting reasons and to what extent students used scientific knowledge in their arguments.
Eighty upper secondary students were asked to express their opinions on one SSI topic they chose through written reports.
The four SSIs in this study include global warming, genetically modified organisms (GMO), nuclear power, and consumption.
To analyse students’ supporting reasons from a holistic view, we used the SEE-SEP model, which links the six subject areas
of sociology/culture (So), environment (En), economy (Ec), science (Sc), ethics/morality (Et) and policy (Po) connecting with
three aspects, knowledge, value and personal experience (KVP). The results showed that students used value to a greater extent (67%) than they did scientific knowledge (27%) for
all four SSI topics. According to the SEE-SEP model, the distribution of supporting reasons generated by students differed
among the SSI topics. Also, some alternative concepts were disclosed in students’ arguments. The implications for research
and education are discussed. 相似文献
12.
Heidi B. Carlone Julie Haun-Frank Sue C. Kimmel 《Cultural Studies of Science Education》2010,5(4):941-965
Science educators and researchers have bemoaned the lack of reform-based science in elementary schools and focused on teachers’
difficulties (i.e., lack of knowledge, interest, experience) in enacting quality science pedagogy. We present compelling evidence
that challenges assumptions about science education reform and draw on a practice theory perspective to examine the stories,
commitments and identities of thirteen teachers, whose beliefs and practices aligned with those promoted by science education
reform documents. Through ethnographic interviews, we learned about these teachers’ critical science experiences, perceived
science teacher identities, and their goals and commitments. Their stories highlight institutional and sociohistorical difficulties
of enacting reform-based science, the many biases, contradictions, and unintended consequences prevalent in educational policy
and practice today, and emphasize how easily the status quo can get reproduced. These teachers had to work as ‘tempered radicals’,
‘working the system’ to teach in ways that were consistent with reform-based science. 相似文献
13.
Argumentation and scientific discourse are essential aspects of science education and inquiry in the 21st century. Student groups often struggle to enact these critical science skills, particularly with challenging content or tasks. Social regulation of learning research addresses the ways groups attempt to navigate such struggles by collectively planning, monitoring, controlling, and reflecting upon their learning in collaborative settings. Such regulation and argumentation can also elicit socioemotional responses and interactions. However, little is known regarding how regulation processes and socioemotional interactions manifest among students involved in small-group discourse about scientific phenomena. As such, in this qualitative study, we explored social regulation of learning, scientific argumentation discourse, and socioemotional interactions in the discussions of two groups of high school physics students (n = 7, n = 6). We found key qualitative distinctions between the two groups, including how they enacted planning activities, their emphasis on challenging other’s ideas versus building shared understanding, and how socioemotional interactions drove discourse. Commonalities across groups included how regulation initiation related to discourse, as well as how the difficulty of the content hindered, and teacher support augmented, the enactment of social regulation. Finally, we found overlapping regulation and discourse codes that provide a foundation for future work. 相似文献
14.
Characteristics of Pre-Service Teachers’ Online Discourse: The Study of Local Streams 总被引:2,自引:2,他引:0
Ling L. Liang Jazlin Ebenezer Deborah S. Yost 《Journal of Science Education and Technology》2010,19(1):69-79
This study describes the characteristics of pre-service teachers’ discourse on a WebCT Bulletin Board in their investigations
of local streams in an integrated mathematics and science course. A qualitative analysis of data revealed that the pre-service
teachers conducted collaborative discourse in framing their research questions, conducting research and writing reports. The
science teacher educator provided feedback and carefully crafted prompts to help pre-service teachers develop and refine their
work. Overall, the online discourse formats enhance out-of-class communication and support collaborative group work. But the
discourse on the critical examination of one another’s point of views rooted in scientific inquiry appeared to be missing.
It is suggested that pre-service teachers should be given more guidance and opportunities in science courses in carrying out
scientific discourse that reflects reform-based scientific inquiry. 相似文献
15.
It is impossible to consider contemporary science education in isolation from globalisation as the dominant logic, rethinking
and reconfiguring social and cultural life in which it is located. Carter (J Res Sci Teach 42, 561–580, 2005) calls for a close reading of policy documents, curriculum projects, research studies and a range of other science education
texts using key concepts from globalisation theory to elucidate the ways in which globalisation shapes and is expressed within
science education. In this paper, we consider an example from our own practice of a school-based curriculum project, Sustainable Living by the Bay, as one such instance. The first section reviews neoliberalism and neoconservativism necessary to understand how globalisation
penetrates education, while the second outlines aspects of the curriculum project itself. As there were many different facets
to the development and implementation of a project like Sustainable Living by the Bay, there is space only to elaborate two examples of the globalisation discourse. The first example concerns the government policy
initiative that funded the project while the second example focuses on learner- centred pedagogies as globalisation’s pedagogies
of choice. 相似文献
16.
What is the Teacher Doing? What are the Students Doing? An Application of the Draw-a-Science-Teacher-Test 总被引:2,自引:0,他引:2
James Minogue 《Journal of Science Teacher Education》2010,21(7):767-781
This study documents the use of the Draw-a-Science-Teacher-Test as diagnostic tool for both preservice teacher beliefs about
science teaching and science methods course effectiveness. Direct comparison of pre-course to post-course images from 50 preservice
elementary teachers was undertaken using McNemar’s test. Results indicated statistically significant shifts in participants’
mental models of science teaching and learning. Post-course more students portrayed student-centered reform minded practices.
The limitations of this analytical approach, the practical significance of this work, and ideas for future research in this
arena are discussed. 相似文献
17.
The “Treasures in the Sea: Use and Abuse” unit that deals with authentic socioscientific issues related to the Mediterranean
was developed as part of a national effort to increase scientific literacy. The unit aimed to enhance active participation
of the learners and encourage higher order thinking in class by applying teaching methods that reduce the unfamiliarity felt
by students. This was expected through an explicit use of a variety of teaching and assessment-for-learning methods, suitable
for Science for All students. Our main goal was to examine the culture of Science for All classes in which the unit was enacted.
In order to address the main learning objectives, we monitored students’ performances in tasks that required the higher order
thinking skills of argumentation and value judgment, which are central constituents of decision-making processes. We show
that while socioscientific issues were discussed in whole class and small group sessions, and students’ argumentation improved,
there is still a long way to go in applying a thinking culture in non-science major classes. We suggest that science teachers
should shift from traditional content-based and value-free approach, to a sociocultural approach that views science as a community
practice and the students as active participants in decision-making processes. 相似文献
18.
Rebecca McNall Krall Joseph P. Straley Sally A. Shafer Jeffrey L. Osborn 《Journal of Science Education and Technology》2009,18(2):173-186
The No Child Left Behind Act requires that all teachers be certified within the content areas that they teach. However, attracting
and retaining highly qualified science teachers in rural school districts is particularly difficult due to limited resources
and geographic and professional isolation. Science professional development programs could help improve inservice teachers’
understanding of concepts they are expected to teach, but such programs are often limited in rural areas. This study evaluates
a unique distance learning, inquiry-based professional development course in physical science developed to meet the needs
of central Appalachian middle school teachers. Instruction through hands-on inquiry investigations distinguishes this program
from other distance learning programs. Preliminary findings from the pilot study reported in this paper reveal significant
growth in 43 teachers’ content knowledge for six of nine temperature and heat concepts assessed in the course. Outcomes from
the distance learning project are discussed as they relate to future research goals and implications for science professional
development programs in rural regions. 相似文献
19.
Patricia Heitmann Martin Hecht Julia Schwanewedel Stefan Schipolowski 《International Journal of Science Education》2013,35(18):3148-3170
The ability to build arguments is a crucial skill and a central educational goal in all school subjects including science as it enables students to formulate reasoned opinions and thus to cope with the increasing complexity of knowledge. In the present cross-sectional study, we examined the domain-specificity of argumentative writing in science by comparing it with a rather general type of argumentation as promoted in first-language education and with formal reasoning to gain insight into different forms of argumentation on theoretical and empirical levels. Using a paper-and-pencil test, we analyzed written argumentations and the reasoning abilities of 3,274 Grade-10 students in German secondary schools. Correlation and multiple regression analyses as well as a qualitative analysis of students' answers to a subset of tasks in the domains of science and first-language education were conducted. Results showed moderate relations between argumentation in science, argumentation in first-language education, and reasoning. Half of the variance in argumentation in science was explained by individual differences in argumentation in first-language education and reasoning. Furthermore, the examination of written arguments revealed differences, for example, in students' weighing of pros and cons. We assume that the familiarity of the underlying scientific information may play an essential role in the argumentation process and posit that it needs to be investigated in more detail. Overall, the study indicates that investigating the argumentational abilities of learners in first-language education and reasoning abilities can help to shed light on the domain-specificity of argumentation in science. 相似文献
20.
William A. Sandoval Noel Enyedy Elizabeth H. Redman Sihan Xiao 《International Journal of Science Education》2013,35(13):1848-1869
ABSTRACTMost of the research on argumentation in science education has documented the myriad flaws in students’ argumentation, and the difficulties teachers have organising productive arguments in the classroom. We apply a sociocultural framework to argue that productive argumentation emerges from a classroom culture in which its practice meaningfully serves classroom goals. We present a case study using interaction analysis to contrast two elementary teachers’ efforts to organise productive scientific argumentation in their classrooms. One teacher used discourse moves to orient students to each other’s contributions in ways the other did not, reflecting differences in underlying aims for collective versus individual sense-making. This analysis shows that connecting discourse practices specifically to a goal of collective sense-making promotes productive argumentation. 相似文献