scholarly journals Teacher Knowledges, Classroom Realities:  Implementing Sociocultural Science in New Zealand Year 7 and 8 Classrooms

2021 ◽  
Author(s):  
◽  
Dayle Anderson
Keyword(s):  
Science Teaching ◽  
Content Knowledge ◽  
Nature Of Science ◽  
Science Learning ◽  
Primary Teachers ◽  
Natural World ◽  
Learning Opportunities ◽  
Science Content ◽  
Wide Range

<p>Lack of science content knowledge has often been suggested as underpinning primary teachers' reluctance to teach science or to provide limited learning opportunities when doing so. Understanding better the full range and nature of teacher knowledges that afford useful science learning opportunities in primary science education could produce a more positive view of primary teachers' potential for science teaching and usefully inform professional development in science. This research used a multiple case study approach to identify the nature of knowledges and beliefs that three teachers from schools well regarded for teaching science at Years 7 and 8 brought to their implementation of a unit of work in science. Students' perceptions of learning pertaining to the science unit were also examined. The influence of teacher knowledges on opportunities for science learning was considered and the ways in which the teachers developed science related teacher knowledges was investigated. Sociocultural theories of learning underpin this study and the extent to which the teachers incorporated sociocultural approaches in their science teaching was a particular focus. Frameworks guiding the analysis of the range of teacher knowledges and of sociocultural teaching approaches were developed from the literature. Data for each case study included observations and transcripts of recordings of the lessons forming each science unit together with multiple interviews with the teacher throughout its implementation. Interviews with focus students during and following the unit along with responses to a questionnaire completed by the class at the end of the unit provided insights into students’ perceptions of what they had learned. This study found that the teachers drew on a wide range of knowledges and beliefs to promote science learning. The teachers employing sociocultural approaches afforded most syntactic science learning opportunities. Crucially influential on the nature of science learning that was promoted was the teacher's orientation to science teaching, in particular, beliefs about the purposes and nature of science and science teaching. Four processes were identified that facilitated the teachers' development of science and pedagogical content knowledge: intentional development, reflection, repetition, and engaging and observing students in investigating the natural world. The nature of knowledge developed by each teacher was afforded and constrained by their orientation to science teaching and their recognition of and access to, sources of support. Learning science content, i.e., substantive science learning, was identified by students where this had been the focus of learning and assessment opportunities because of their teacher's particular orientation. Learning about the nature of science, i.e., syntactic science learning, was identified where this was the sole focus of learning and assessment opportunities. In the one case where the teacher's orientation afforded both types of learning opportunity with apparently equal emphasis, students more readily identified substantive science ideas over syntactic ideas as new or important learning.</p>

scholarly journals Teacher Knowledges, Classroom Realities:  Implementing Sociocultural Science in New Zealand Year 7 and 8 Classrooms

2021 ◽  
Author(s):  
◽  
Dayle Anderson
Keyword(s):  
Science Teaching ◽  
Content Knowledge ◽  
Nature Of Science ◽  
Science Learning ◽  
Primary Teachers ◽  
Natural World ◽  
Learning Opportunities ◽  
Science Content ◽  
Wide Range

<p>Lack of science content knowledge has often been suggested as underpinning primary teachers' reluctance to teach science or to provide limited learning opportunities when doing so. Understanding better the full range and nature of teacher knowledges that afford useful science learning opportunities in primary science education could produce a more positive view of primary teachers' potential for science teaching and usefully inform professional development in science. This research used a multiple case study approach to identify the nature of knowledges and beliefs that three teachers from schools well regarded for teaching science at Years 7 and 8 brought to their implementation of a unit of work in science. Students' perceptions of learning pertaining to the science unit were also examined. The influence of teacher knowledges on opportunities for science learning was considered and the ways in which the teachers developed science related teacher knowledges was investigated. Sociocultural theories of learning underpin this study and the extent to which the teachers incorporated sociocultural approaches in their science teaching was a particular focus. Frameworks guiding the analysis of the range of teacher knowledges and of sociocultural teaching approaches were developed from the literature. Data for each case study included observations and transcripts of recordings of the lessons forming each science unit together with multiple interviews with the teacher throughout its implementation. Interviews with focus students during and following the unit along with responses to a questionnaire completed by the class at the end of the unit provided insights into students’ perceptions of what they had learned. This study found that the teachers drew on a wide range of knowledges and beliefs to promote science learning. The teachers employing sociocultural approaches afforded most syntactic science learning opportunities. Crucially influential on the nature of science learning that was promoted was the teacher's orientation to science teaching, in particular, beliefs about the purposes and nature of science and science teaching. Four processes were identified that facilitated the teachers' development of science and pedagogical content knowledge: intentional development, reflection, repetition, and engaging and observing students in investigating the natural world. The nature of knowledge developed by each teacher was afforded and constrained by their orientation to science teaching and their recognition of and access to, sources of support. Learning science content, i.e., substantive science learning, was identified by students where this had been the focus of learning and assessment opportunities because of their teacher's particular orientation. Learning about the nature of science, i.e., syntactic science learning, was identified where this was the sole focus of learning and assessment opportunities. In the one case where the teacher's orientation afforded both types of learning opportunity with apparently equal emphasis, students more readily identified substantive science ideas over syntactic ideas as new or important learning.</p>

scholarly journals Investigating pre-service primary teachers espoused pedagogical content knowledge for nature of science teachingÖğretmen adaylarının bilimin doğasına yönelik planlanmış pedagojik alan bilgilerinin araştırılması

2017 ◽  
Vol 14 (2) ◽  
pp. 1129
Author(s):  
Kader Bilican
Keyword(s):  
Pedagogical Content Knowledge ◽  
Science Teaching ◽  
Content Knowledge ◽  
Nature Of Science ◽  
Primary Teachers ◽  
Source Analysis ◽  
Pedagogical Content ◽  
Intervention Phase ◽  
Knowledge For Teaching ◽  
Content Knowledge For Teaching

The current study aimed to investigate pre-service primary teachers espoused pedagogical content knowledge for teaching nature of science. Mainly, the research was focused on how pre-service primary teachers’ interpretations of nature of science were attributed to their espoused pedagogical content knowledge for teaching nature of science. Participants of the study were 12 (10F, 2M) pre-service primary teachers who were supposed to teach to K-4 level.  Data was collected by means of qualitative data collection tools. Content representations (cores), lesson plans and feedback forms were the data sources of the study. The data was collected in the context of science teaching method course in which the intervention phase of the study have been taken and lasted four weeks. First, participants were introduced to “core” development task within the intervention phase. Through this task, participants formed groups of four and discussed and revised their cores within groups. During group discussions, participants were required to address issues like the importance of the content, the difficulties that students might face through learning of the content, the teaching methods they planned to use, nature of science integration to the content, and evaluation and assesment strategies. In addition to core development, each participant required to fill a feedback form in which they evaluated one of the peer’s cores for each week based on the pre-determined criteria.  Regarding data analysis, each data source analysis included category construction, and search for patterns regarding participants’ espoused pedagogical content knowledge for nature of science teaching. Findings of the study revealed that, few of the participants could be able to address nature of science in an explicit reflective way in their cores. However, majority of the participants demonstrated emergence of pedagogical content knowledge for theaching nature of science. That is, they indicated necessity of nature of science inclusion in an explicit reflective way in their responses to feedback forms. This result implied that, pre-service teachers could be taught on internationization of nature of science as a valuable learning outcome which is an important component of development of pedagogical content knowledge for teaching nature of science. ÖzetBu araştırma sınıf öğretmeni öğretmen adaylarının bilimin doğasını öğretimini belirlemeye yönelik gerçekleştirilmiş nitel bir çalışmadır. Çalışma, 12 üçüncü sınıf, sınıf öğretmeni adayı ile Fen ve Teknoloji öğretimi dersi kapsamında gerçekleştirilmiştir. Sınıf öğretmeni adaylarının bilimin doğası öğretimlerini incelemek amacı ile adaylardan içerik gösterimi hazırlamaları ve grup arkadaşlarının hazırladıkları üç adet içerik gösterimini bir yönerge ışığında grup çalışması ve tartışması yaparak değerlendirmeleri istenmiştir. Katılımcılar yaptıkları tartışma ve değerlendirme sonrası içerik gösterimlerini gözden geçirmiş ve son halini vermiştir. Yapılan nitel içerik analizi sonucunda öğretmen adaylarının bilimin doğası öğretimleri belirlenmeye çalışılmıştır. Analiz sonuçları, çok az sınıf öğretmeni öğretmen adayının bilimin doğasını açık yansıtıcı bir biçimde içerik gösterimlerinde yer verdiğini göstermiştir. Öğretmen adaylarının hazırlamış oldukları içerik gösterimlerinde bilimin doğası konusuna çoğunlukla dolaylı olarak değinilmiş, yapılan etkinlik ve deneyler sonucunda bilimin doğası ile ilgili gerekli çıkarımların yapılacağı varsayılmıştır. Buna karşın, adayların değerlendirmesini yapmış oldukları içerik gösterimleri çoğunlukla bilimin doğası açık yansıtıcı bir yaklaşımla vurgulanmadığı için eleştirilmiştir. Yani, katılımcıların büyük çoğunluğunun bilimin doğasının açık ve doğrudan bir şekilde entegre edilmesi gerekliliği düşüncesinin oluşturulmasında, katılımcıalra katkı sağlanmıştır. Bu bulgu, bilimin doğasını öğretmeye yönelik pedogojik alan bilgisinin önemli bileşenlerinden biri olan bilimin doğasının önemli bir öğrenim kazanımı olarak algılanmasının, öğretmen adaylarına benimsetilebileceğini ve bu algının geliştirebileceğini göstermişti.

scholarly journals Sammenhengen mellom naturvitenskapelig produkt og prosess - En studie av dialoger fra utforskende arbeid i naturfag relatert til stoffer og stoffers endringer

2013 ◽  
Vol 9 (1) ◽  
pp. 33-49
Author(s):  
Anne Bergliot Øyehaug ◽  
Anne Holt
Keyword(s):  
Science Teaching ◽  
Research Design ◽  
Scientific Inquiry ◽  
Scientific Method ◽  
Science Learning ◽  
Student Understanding ◽  
The Other ◽  
Science Content ◽  
Wide Range ◽  
Product And Process

This paper reports from a study where a teacher and researchers collaborated on designing science teaching promoting scientific inquiry (processes of science) and science content (product of science) for a group of students (age 11 – 13). A wide range of data from students’ performance in combining science product and processes were collected during a two year period. Results indicate that students combined product (matter and change of matter) and processes of science (making hypotheses, suggesting research design and evaluating evidence) and that these aspects support each other in science learning. The ability of linking product and process differed among students and varied from one scientific method to the other. To succeed in linking science content and processes of science it is important to scaffold student understanding, like providing templates and asking rich and relevant questions.

scholarly journals THE IMPACT OF A SCIENCE METHODS COURSE ON FEMALE PRE-SERVICE TEACHERS’ BELIEFS WITHIN A SAUDI-ARABIAN CONTEXT

2019 ◽  
Vol 18 (1) ◽  
pp. 19-38
Author(s):  
Amani K. Hamdan Alghamdi ◽  
Sun Young Kim
Keyword(s):  
Saudi Arabia ◽  
Science Teaching ◽  
Content Knowledge ◽  
Methods Course ◽  
Science Methods ◽  
Teaching Beliefs ◽  
Science Content ◽  
Science Methods Course ◽  
Science Content Knowledge ◽  
The Impact

This research examines the impact of a science methods course on the beliefs of female pre-service teachers (PSTs) in Saudi Arabia. Forty-seven female PSTs enrolled in a diploma of education programme at Imam Abdulrahman Bin Faisal University (IAU) took a 16-week science methods course aimed at promoting their beliefs about their own self-efficacy, science teaching strategies, and science content knowledge (SCK). The PSTs completed a 30-item questionnaire on science teaching beliefs (five- point Likert Scale) both before and after taking the course. Data analysis revealed that the PSTs’ beliefs regarding their own self-efficacy changed after the course (statistically significant t=2.792, p 0.01) with scores indicating increased beliefs. Although increases were also observed for beliefs regarding science teaching methods and strategies and science content knowledge, they were very slight and not statistically significant. Overall, mean scores fell within the ‘neither agree nor disagree’ category for all three themes, ranging from 2.98 to 3.24. As one of the first studies in Saudi Arabia on PSTs’ science teaching beliefs, this research filled a gap in the existing literature. Grounded in the moderate scores for all three themes, recommendations for future science education course design are tendered as are suggestions for future research.

scholarly journals Affordances of visual representations and sense-making of science

2021 ◽  
Vol 26 ◽  
Author(s):  
Maurice Cheng
Keyword(s):  
Science Teaching ◽  
Nature Of Science ◽  
Scientific Literacy ◽  
Science Learning ◽  
Visual Representations ◽  
Sense Making ◽  
Visual Thinking ◽  
Learning And Teaching ◽  
Research Studies

Visual thinking is essential in the development of science. Visual representations are also indispensable when scientists disseminate their findings. This paper discusses the ways that research studies on visual representations can inform science learning and teaching. I start by discussing the ways that drawings, charts and graphics represent their referents, and hence highlighting the affordances of these visual representations. Then I discuss how these affordances make visual representations a valuable tool to support science teaching in formal and informal contexts and, in particular, how learning with media graphics can support the learning of Nature of Science for scientific literacy.

scholarly journals Developing reflective primary teachers: talking science and speaking English as an additional language

2015 ◽  
Vol 17 (2) ◽  
pp. 328
Author(s):  
Gloria Jové Monclus ◽  
Charly Ryan ◽  
Esther Betrián Villas
Keyword(s):  
Primary Education ◽  
Teacher Educators ◽  
Primary Teachers ◽  
Community Resources ◽  
Science Content ◽  
Teaching Plan ◽  
Education Degree ◽  
The University ◽  
English Students

In this article we present a case study in initial education of teachers studying the Primary Education Degree of the University of Lleida. Students prepare a teaching plan for science content linked to community resources, and present it in English. The aim was the students experience "talking science" in English. We focus on the questions: What have we experienced doing this activity in English? Students refer to impotence and frustration at expressing themselves and their ideas in English. While the data shows that there was little focus on science content, they showed the value of the exercise in their development as teachers. They experience ‘otherness’ and connect this to their future roles as teachers in multi-lingual, multi-cultural classrooms. Preparing this case study shows the value of teacher educators reflecting on their practice.

scholarly journals Science learning via participation in online citizen science

2016 ◽  
Vol 15 (03) ◽  
pp. A07 ◽  
Author(s):  
Karen Masters ◽  
Eun Young Oh ◽  
Joe Cox ◽  
Brooke Simmons ◽  
Chris Lintott ◽  
...  
Keyword(s):  
Content Knowledge ◽  
Citizen Science ◽  
Scientific Knowledge ◽  
Science Learning ◽  
Science Content ◽  
Science Knowledge ◽  
General Science ◽  
Scientific Content ◽  
Econometric Methods ◽  
Science Projects

We investigate the development of scientific content knowledge of volunteers participating in online citizen science projects in the Zooniverse (http://www.zooniverse.org). We use econometric methods to test how measures of project participation relate to success in a science quiz, controlling for factors known to correlate with scientific knowledge. Citizen scientists believe they are learning about both the content and processes of science through their participation. We don't directly test the latter, but we find evidence to support the former — that more actively engaged participants perform better in a project-specific science knowledge quiz, even after controlling for their general science knowledge. We interpret this as evidence of learning of science content inspired by participation in online citizen science.

Life Science Literacy of an Undergraduate Population

2014 ◽  
Vol 76 (1) ◽  
pp. 34-41 ◽  
Author(s):  
Stephanie R. Medina ◽  
Evan Ortlieb ◽  
Sandra Metoyer
Keyword(s):  
Content Knowledge ◽  
Undergraduate Students ◽  
Scientific Literacy ◽  
Science Learning ◽  
Life Science ◽  
The United States ◽  
Informal Science ◽  
Science Content ◽  
Informal Science Learning ◽  
Significant Difference

Science content knowledge is a concern for educators in the United States because performance has stagnated for the past decade. Investigators designed this study to determine the current levels of scientific literacy among undergraduate students in a freshman-level biology course (a core requirement for majors and nonmajors), identify factors influencing levels of scientific literacy, and make recommendations for improving scientific literacy. Participants (n = 255) answered a one-time, 18-item life science questionnaire. A significant difference in content knowledge was found between participants who engaged in informal science learning weekly and participants who did not engage in informal science learning (i.e., learning outside the classroom).

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