Inquiry Learning and Teaching in Science Education

The Organising Committee of the 9th International Conference on University Teaching and Innovation (CIDUI) wishes to thank the Editorial Board of the Journal of Technology and Science Education (JOTSE) for publishing this special issue.Since the year 2000, a new CIDUI conference has been held every two years. Today, it is a well-established event that provides an opportunity to share advances and innovation in the field of higher education.Like the previous editions, this one was also committed to fostering an especially participatory working dynamic and to promoting different points of view. The programmed debates were complemented by contributions from recognised specialists regarding the main topic of the conference: Learning and teaching innovation impacts. In relation to this general subject, papers were specifically focused on one of the four thematic axes proposed for this edition:Analysis of the impact on university teaching and learningNew training scenesProfessional DevelopmentInnovative methodologies in teaching – learning processesThe present special issue of the Journal of Technology and Science Education - JOTSE consists of eleven papers.

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Commentary: Designing Science Instructional Materials that Contribute to More Just, Equitable, and Culturally Thriving Learning and Teaching in Science Education

Journal of Science Teacher Education ◽

10.1080/1046560x.2021.1964786 ◽

2021 ◽

Vol 32 (7) ◽

pp. 858-864

Author(s):

Carrie Tzou ◽

Megan Bang ◽

Leah Bricker

Keyword(s):

Science Education ◽

Instructional Materials ◽

Learning And Teaching

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Inquiry: A Teaching Approach for Gifted Visually Impaired Learners

Gifted Education International ◽

10.1177/026142940902500207 ◽

2009 ◽

Vol 25 (2) ◽

pp. 172-187 ◽

Cited By ~ 1

Author(s):

Deborah L. Rooks ◽

C. June Maker

Keyword(s):

Visually Impaired ◽

Inquiry Learning ◽

Visual Impairments ◽

Gifted Students ◽

Natural World ◽

Gifted Student ◽

Gifted Children ◽

Learning Needs ◽

Learning And Teaching ◽

Visually Impaired Students

Inquiry is a dynamic approach to learning and teaching that involves a process of experiencing the natural world. As they pose questions about the information, learners conduct research for genuine reasons, make new discoveries, and test their discoveries to generate new knowledge and understanding. Inquiry is an approach that fits the learning needs of both visually impaired students and students who are gifted, and is especially important for gifted students with visual impairments. We introduce readers to inquiry approaches, review the theoretical framework, outline the characteristics of inquiry learning, explain how these approaches are important to use with gifted children with visual impairments, provide examples, summarize research on the effectiveness of inquiry learning, give an example of science teaching using an inquiry learning model in a regular classroom setting, and show how this lesson could be an effective way to involve and challenge a gifted student with a visual impairment.

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A MUVEing Success

K-12 Education ◽

10.4018/978-1-4666-4502-8.ch036 ◽

2013 ◽

pp. 614-638

Author(s):

Shannon Kennedy-Clark ◽

Kate Thompson

Keyword(s):

Professional Development ◽

Science Education ◽

Virtual Environments ◽

Case Studies ◽

Educational Games ◽

Inquiry Learning ◽

Science Inquiry ◽

Development Programs ◽

Classroom Activities

The chapter will explain the role of scenario-based MUVES and educational games in science education and will present both the benefits for students and the challenges of using these forms of technology in a classroom setting. This chapter presents the findings of two case studies on the use of a scenario-based Multi-User Virtual Environments (MUVE) in science education. The chapter will consider strategies for designing professional development programs for teachers and pre-service teachers to enhance both the teachers’ skills and their confidence in using and designing classroom activities suitable for MUVEs and educational games in science inquiry learning.

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Diffusion of ICT Innovation in Science Education

Multiple Literacy and Science Education ◽

10.4018/978-1-61520-690-2.ch006 ◽

2010 ◽

pp. 84-102

Author(s):

Bulent Cavas ◽

Pinar Cavas ◽

Bahar Karaoglan ◽

Tarik Kisla

Keyword(s):

Science Education ◽

Science Teachers ◽

Diffusion Of Innovation ◽

Ict In Education ◽

Technology Application ◽

Learning And Teaching ◽

General Terms ◽

Technological Research Council ◽

Doi Theory ◽

University Science

In this chapter, the authors first discuss how Roger’s theory of innovation diffusion can be incorporated into ICTs in formal and informal learning and teaching environments. The authors begin by presenting the use of ICT in education in general terms, then they introduce Rogers’ diffusion of innovation (DoI) theory and the related literature. This is followed by a description of a project which explored the relationship between some characteristics of primary science teachers and their attitudes toward the use of ICT in education. A national project was funded by the Scientific and Technological Research Council of Turkey (TÜBITAK), and Ege University, Science and Technology Application and Research Center. The last section involves a discussion of the diffusion of technological innovations into science education in the light of Rogers’ DoI theory.

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Characterization of immersive argument-based inquiry learning environments in K-12 science education and the development of a teacher profile tool for professional development

10.17077/etd.005355 ◽

2020 ◽

Author(s):

Kathleen Ann Weiss

Keyword(s):

Professional Development ◽

Science Education ◽

Learning Environments ◽

Inquiry Learning ◽

K 12

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The synthesis of subject and pedagogy for effective learning and teaching in primary science education

British Educational Research Journal ◽

10.1080/0141192042000279521 ◽

2004 ◽

Vol 30 (6) ◽

pp. 819-839 ◽

Cited By ~ 19

Author(s):

Joan Parker

Keyword(s):

Science Education ◽

Primary Science ◽

Primary Science Education ◽

Learning And Teaching ◽

Effective Learning

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Developing Character Students Trough Spot Capturing Method in Science Education Learning

Science Education and Application Journal ◽

10.30736/seaj.v1i1.97 ◽

2019 ◽

Vol 1 (1) ◽

pp. 39

Author(s):

Kiki Septaria

Keyword(s):

Science Education ◽

Research Method ◽

Social Care ◽

Selection Method ◽

Literature Study ◽

Student Centered ◽

Student Centered Learning ◽

Teaching Activity ◽

Learning And Teaching ◽

Method Student

Characters is something that shows how good someone is. Every human being has the characters since they birth. Characters can be developed on a macro or micro basis, one of which is micro ways with learning and teaching activity in schools. Selection method of learning is vey important to develop good character in students. One method student-centered learning is the Spot Capturing method. This research method uses a literature study method that wants to know the characters that can be developed using the Spot capturing method. The literature results show that spot capturing methods can develop several characters in their implementation such as curiosity, honesty, discipline, hard work, creative, responsibility, social care and communicative.

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Reformed Teaching and Learning in Science Education: A Comparative Study of Turkish and US Teachers

Journal of Education and Learning ◽

10.5539/jel.v6n3p23 ◽

2017 ◽

Vol 6 (3) ◽

pp. 23 ◽

Cited By ~ 3

Author(s):

Burhan Ozfidan ◽

Baki Cavlazoglu ◽

Lynn Burlbaw ◽

Hasan Aydin

Keyword(s):

Science Education ◽

Science Teaching ◽

Science Teachers ◽

Teaching And Learning ◽

Teaching Science ◽

Science Teaching And Learning ◽

Learning And Teaching ◽

American Science ◽

Study Results ◽

Teachers Beliefs

Achievements of educational reform advantage constructivist understandings of teaching and learning, and therefore highlight a shift in beliefs of teachers and apply these perceptions to the real world. Science teachers’ beliefs have been crucial in understanding and reforming science education as beliefs of teachers regarding learning and teaching science impact their practice. The purpose of this study was to compare US and Turkish science teachers’ beliefs about reformed learning and teaching science. As an instrument, we used Beliefs about Reformed Science Teaching and Learning (BARSTL) to collect and measure the teachers’ beliefs regarding teaching and learning science education. We used an independent-sample t-test to analyze Turkish and American science teachers’ beliefs about reformed learning and teaching science. In total, 38 science teachers from the US and 27 science teachers from Turkey participated in this study. Results showed that US science teachers’ beliefs about reformed learning and teaching science are statistically higher than Turkish science teachers. The results of this study also indicated that although American and Turkish science education aim similar constructivist views on learning and teaching science, American science teachers hold more reformed beliefs in science teaching and learning than their Turkish colleagues.

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