Socio-scientific issues as contexts for relevant education and a case on tattooing in chemistry teaching

2018 ◽  
Vol 29 (1) ◽  
pp. 9
Author(s):  
Ingo Eilks ◽  
Ralf Marks ◽  
Marc Stuckey
Keyword(s):  
Science Education ◽  
Science Teaching ◽  
Chemistry Education ◽  
Chemistry Teaching ◽  
Curriculum Model ◽  
Relevant Education

<p>Context-based science education suggests that meaningful science teaching should be based on the lifeworld, society, or potential professional future of the pupils. But: Are all corresponding contexts for science education similarly good? This paper presents a curriculum model for using socio-scientific issues as contexts for science education in general and chemistry education in particular. It discusses the implications of this approach and presents an example on chemistry teaching about the issue of tattooing.</p>

Increasing student motivation and the perception of chemistry's relevance in the classroom by learning about tattooing from a chemical and societal view

2014 ◽  
Vol 15 (2) ◽  
pp. 156-167 ◽  
Author(s):  
Marc Stuckey ◽  
Ingo Eilks
Keyword(s):  
Science Education ◽  
Chemistry Education ◽  
Lesson Plan ◽  
Background Information ◽  
Participatory Action ◽  
Chemistry Teaching ◽  
Secondary Chemistry ◽  
Chemistry Learning ◽  
Tattoo Inks ◽  
Selection Of

This paper presents a study on tattooing as a topic for chemistry education. The selection of the topic was inspired by a newly suggested framework, which focuses on the question of relevance of science education. The aim of this case was to get evidence on how topics selected based on the suggested model of relevance of science education affect learners' overall motivation and perception of chemistry learning. For the purpose of the study a lesson plan was cyclically developed and tested within a project of Participatory Action Research. The lesson plan focuses both the chemistry behind tattoo inks and the societal perspectives surrounding tattoos. The study description first includes some background information about tattooing and tattoo inks. It then continues with a description of the lesson plan and ends with reporting experiences and findings taken from lesson plan evaluations at the lower secondary chemistry teaching level (age 14–15). The topic and lesson plan proved themselves to be very motivating for students. Indicators that this lesson plan can potentially contribute to positive changes in students' perceptions of learning chemistry were observed. Implications arising from this case are also discussed.

Chemistry education research trends: 2004–2013

2014 ◽  
Vol 15 (4) ◽  
pp. 470-487 ◽  
Author(s):  
Tang Wee Teo ◽  
Mei Ting Goh ◽  
Leck Wee Yeo
Keyword(s):  
Science Education ◽  
Education Research ◽  
Science Teaching ◽  
Chemistry Education ◽  
The United States ◽  
Research Trends ◽  
Research Papers ◽  
Chemistry Education Research ◽  
Future Work ◽  
Science Education Journals

This paper presents findings from a content analysis of 650 empirical chemistry education research papers published in two top-tiered chemistry education journals Chemistry Education Research and Practice and Journal of Chemical Education, and four top-tiered science education journals International Journal of Science Education, Journal of Research in Science Teaching, Research in Science Teaching and Science Education from 2004–2013. We found that empirical chemistry education research (CER) papers accounted for 7.7 percent of the publications in the four science education journals. The most highly published area of research was in conceptions and conceptual change and most studies adopted mixed methods. The majority of the studies were conducted in higher education contexts and in the United States. Researchers who publish prolifically in the field included Vicente Talanquer, Derek Cheung, Michael Sanger, Keith Taber, Melanie Cooper and Marcy Towns. Current research trends and gaps are illuminated and possible future work in CER is discussed in the paper.

scholarly journals Chemistry Education in Kosovo: Issues, Challenges and Time for Action

2020 ◽  
Vol 10 (1) ◽  
pp. 125-144
Author(s):  
Fatlume Berisha
Keyword(s):  
Science Education ◽  
Chemistry Education ◽  
Document Analysis ◽  
Multidimensional Analysis ◽  
University Education ◽  
Future Research ◽  
Chemistry Curriculum ◽  
Firm Conclusion ◽  
Chemistry Teaching ◽  
Descriptive Research

Although several reforms have shifted the direction of education, a debate on the strengths and limitations of science education in Kosovo has not yet been initiated. The present article analyses the development of chemistry education in Kosovo and encourages questions that could shape science education practices in general. In particular, the article analyses the pre-university chemistry curriculum in Kosovo over the years, as well as examining chemistry teacher education programmes. The analysis is based on descriptive research of data and document analysis. The multidimensional analysis of the issues and challenges of chemistry education will provide recommendations for future research on chemistry education and chemistry teaching practices in order to make chemistry education and the pre-university chemistry curriculum relevant to the context of Kosovo. As pre-university education curricula, especially the curriculum for the natural sciences, and the preparation of both pre-service and in-service teachers in Kosovo are considered challenging, a firm conclusion for actions has not been reached. Nevertheless, the article seeks to spark a debate in the field.

scholarly journals Progressing chemistry education research as a disciplinary field

2019 ◽  
Vol 1 (1) ◽  
Author(s):  
Keith S. Taber
Keyword(s):  
Science Education ◽  
Education Research ◽  
Teaching And Learning ◽  
Chemistry Education ◽  
Current Status ◽  
Chemistry Teaching ◽  
Future Directions ◽  
Disciplinary Field ◽  
Chemistry Education Research

AbstractThis article offers a viewpoint regarding the current status of chemistry education research (CER) as a scholarly field within science education, and suggests priorities for future directions of work in the field. The article begins by briefly considering what makes something a discrete field of activity, and what makes such a field ‘scientific’. This provides a basis for understanding and evaluating CER, and informs a consideration of imperatives and priorities for progressing the field. In particular, it is suggested one emphasis should be on areas of work which can be considered ‘inherent’ to CER as they arise from essential aspects of chemistry teaching and learning, and some examples of such inherent research foci (the ‘chemist’s triplet’; models in chemistry; chemical explanations) are briefly discussed.

Education for sustainable development in chemistry – challenges, possibilities and pedagogical models in Finland and elsewhere

2014 ◽  
Vol 15 (4) ◽  
pp. 488-500 ◽  
Author(s):  
M. K. Juntunen ◽  
M. K. Aksela
Keyword(s):  
Sustainable Development ◽  
Science Education ◽  
Green Chemistry ◽  
Chemistry Education ◽  
Sustainability Science ◽  
Education For Sustainable Development ◽  
Chemistry Teachers ◽  
Current State ◽  
Pedagogical Models ◽  
Pedagogical Frameworks

This article analyses Education for Sustainable Development (ESD) in chemistry by reviewing existing challenges and future possibilities on the levels of the teacher and the student. Pedagogical frameworks that are found eligible in practice are reviewed. Lesson themes that are suitable for implementing socio-scientific issues (SSI) related to ESD into basic chemistry education at schools are discussed. Based on this analysis, three new demonstrative pedagogical models for ESD in chemistry are presented to help guide the work of teachers. The models draw on an interdisciplinary reading of research in the field of SSI-based science education, sustainability science, green chemistry and environmental education. The current state of ESD in Finnish chemistry education is used as an example case throughout the article. Two tasks where future development is required were recognised. The first task concerns supporting chemistry teachers in overcoming the challenges with SSI and ESD they face in their work. The second task is to ensure that students are more often provided with more relevant and flexible chemistry content and studying methods.

scholarly journals Confronting repressive ideologies with critical pedagogy in science classrooms

2021 ◽  
Author(s):  
Wilton Lodge
Keyword(s):  
Social Justice ◽  
Science Education ◽  
Critical Pedagogy ◽  
Science Teaching ◽  
Classroom Discourse ◽  
Science Learning ◽  
Educational Practice ◽  
Political Activity ◽  
Science Classrooms ◽  
Free Process

AbstractThe focus of this response to Arthur Galamba and Brian Matthews’s ‘Science education against the rise of fascist and authoritarian movements: towards the development of a Pedagogy for Democracy’ is to underpin a critical pedagogy that can be used as a counterbalancing force against repressive ideologies within science classrooms. Locating science education within the traditions of critical pedagogy allows us to interrogate some of the historical, theoretical, and practical contradictions that have challenged the field, and to consider science learning as part of a wider struggle for social justice in education. My analysis draws specifically on the intellectual ideas of Paulo Freire, whose work continues to influence issues of theoretical, political, and pedagogical importance. A leading social thinker in educational practice, Freire rejected the dominant hegemonic view that classroom discourse is a neutral and value-free process removed from the juncture of cultural, historical, social, and political contexts. Freire’s ideas offer several themes of relevance to this discussion, including his banking conception of education, dialog and conscientization, and teaching as a political activity. I attempt to show how these themes can be used to advance a more socially critical and democratic approach to science teaching.

scholarly journals Ideas, politics and practices of integrated science teaching in the global Cold War

BJHS Themes ◽  
2018 ◽  
Vol 3 ◽  
pp. 167-189
Author(s):  
KRISTIAN H. NIELSEN
Keyword(s):  
Science Education ◽  
Cold War ◽  
Science Teaching ◽  
Modern Society ◽  
The United States ◽  
Integrated Science ◽  
Interest In Science ◽  
Scientific Disciplines ◽  
The Cold War ◽  
Curriculum Reforms

AbstractDuring the Cold War, UNESCO played a major role in promoting science education across the world. UNESCO's Programme in Integrated Science Teaching, launched in 1969, placed science education at the heart of socio-economic development in all nations. The programme planners emphasized the role of science education in the development of human resources necessary to build a modern nation state, seeking to build a scientific and engineering mindset in children. UNESCO's interest in science education drew inspiration from early Cold War curriculum reforms in the United States, where scientists, psychologists and teachers promoted science education as a way to enhance the scientific and technical workforce and to counteract irrational tendencies. While US curriculum reformers were concerned about the quantity and quality of science teaching in secondary school, UNESCO wanted to introduce science as a topic in primary, secondary and vocational schools, promoting integrated science teaching as the best way to do this. From the outset, the term ‘integrated’ meant different things to different people. It not only entailed less focus on scientific disciplines and scientific method strictly defined, but also more on teaching children how to adopt a curious, experimental and engineering approach in life. By the end of the Cold War, UNESCO abandoned the idea of integrated science teaching, but it has a lasting legacy in terms of placing ways of teaching science to children at the heart of modern society.

scholarly journals Brief Training and Intensive Mentoring Guide Postdoctoral Scholars to Student-Centered Instruction

2021 ◽  
Vol 20 (4) ◽  
Author(s):  
R. M. Price ◽  
C. J. Self ◽  
W. C. Young ◽  
E. R. Klein ◽  
S. Al-Noori ◽  
...  
Keyword(s):  
Science Education ◽  
Science Teaching ◽  
Teaching Experience ◽  
Evidence Based ◽  
Student Centered ◽  
Brief Training

The Science Teaching Experience Program-Working in Science Education (STEP-WISE) provides mentorship, practice, and feedback for research postdocs who are learning and applying inclusive, evidence-based pedagogies. The program is successful and sustainable for institutions. Its salient components are outlined here.

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