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研究生: 華培夫
Bevo Wahono
論文名稱: Act Locally, Think Regionally, and Contribute Globally through STEM Education: An Inter-related Study Case of Indonesian Science Teachers and Students
Act Locally, Think Regionally, and Contribute Globally through STEM Education: An Inter-related Study Case of Indonesian Science Teachers and Students
指導教授: 張俊彥
Chang, Chun-Yen
學位類別: 博士
Doctor
系所名稱: 科學教育研究所
Graduate Institute of Science Education
論文出版年: 2020
畢業學年度: 108
語文別: 英文
論文頁數: 119
英文關鍵詞: teacher and student, Asia study
DOI URL: http://doi.org/10.6345/NTNU202000486
論文種類: 學術論文
相關次數: 點閱:181下載:0
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  • This thesis addresses challenges regarding STEM (science, technology, engineering, mathematics) education by the teachers and students in Asian regions. STEM education is indispensable for students in facing the complexity of a new world and uncertain conditions. Despite have an abundance of advantages, there are still gaps and challenges related to STEM education as a whole. Past studies revealed that most of the researches regarding STEM education originates from Western countries. However, it is not yet known the extent of STEM attitudes, knowledge, and even the application by the teachers, especially in many Asian countries, including Indonesia. In terms of research on the students, few studies have revealed the effectiveness of STEM education in the Asian sphere, especially comprehensively related to students' learning outcomes. Moreover, another challenge in Asian nations, such as in Indonesia, is that many science and technology topics, appear as controversial issues. The social complex issues involve concepts, procedures, and or technology as well as closely related to science and its derivatives, such as the issue of genetically modified organisms.
    The present thesis has four inter-related studies. Study 1, which is the baseline of this study, focuses on a comprehensive review of the current conditions regarding the development and impact of STEM education applications by teachers on students in the Asian region. The analysis results of effect sizes showed that the STEM enactments in Asia were effective in moderately level of improving students' learning outcomes. Study 2 aimed to design and develop a valid instrument that can be used to assure the quantitative degree of attitude, knowledge, and application of STEM (AKA) by science teachers. Results showed that the designed and developed AKA instrument was adequate to reliabilities and validities as well as can be used to collect data. Study 3 outlines the current conditions regarding STEM education by teachers in a particular country, Indonesia. This study focuses on assessing the growth of the latest developments of STEM as part of an effort to maintain the progress of STEM education. Results show that science teachers have an excellent attitude, a moderate-level category in the application, and a low-level category in knowledge regarding STEM education. Further, there were differences in knowledge and the application of STEM education, based on educational background and teaching experience of the teachers, yet there were no differences regarding teachers’ attitudes. Finally, Study 4 describes curriculum development and the effectiveness of a local-style STEM curriculum with Indonesian students. The results of the study revealed that socio-scientific issue-based instruction by STEM-6E could obviously explore a unique natural classroom interaction initiated by the teacher. Moreover, the results of the study also showed that both proximal and distal assessment had a significant pretest and post-test score differences. Therefore, this current thesis suggests that all parties must account for all factors such as teacher, student, culture, and curriculum, rather than a limited number of variables in understanding the STEM education phenomenon. The practical contribution of this inter-related study is crucial for STEM education, in Indonesia, the Asian region, as well as globally.

    Seed [Abstract] iv Crown [Acknowledgement] v Layers I [Table of Content] vi Layers II [List of Tables] ix Layers III [List of Figures] x Root [Introduction] 1.1 Thesis Background 1 1.2 Design Construct of Study 3 1.3 Purpose and Nature of the study 4 1.4 Thesis organizations 4 References Stem I [Evidence of STEM Enactment Effectiveness in Asian Students’ Learning Outcomes] 2.1 Introduction 9 2.2 Theoretical Background 11 2.2.1 STEM Education and Its Significant Development in Asian Regions 11 2.2.2 Any Teaching Strategy Supports STEM Education 13 2.2.3 Students’ Learning Outcomes Estimated on STEM Enactment 14 2.2.4 Asian Culture and Characteristics of Teaching and Learning 15 2.3 Method 16 2.3.1 Research Model 16 2.3.2 Selection of Studies 16 2.3.3 Data Coding 17 2.3.4 Data Analysis 21 2.4 Results 22 2.4.1 General Portrait of Study 23 2.4.2 The Effect of STEM Enactment on Students’ Learning Outcomes 25 2.4.2.1 Academic Learning Achievement 25 2.4.2.2 Higher-order Thinking Skills 27 2.4.2.3 Motivation 28 2.4.3 Moderator Variable of STEM Enactment’s Learning Outcomes Effectiveness 29 2.5 Discussion 31 2.5.1 Overview of STEM Enactment in Asia 31 2.5.2 Impacts of STEM Enactment on Asian Students’ Learning Outcomes 32 2.5.3 Potential Factors Contribute to STEM Enactment 33 2.6 Conclusion & Practical Implications 35 References Stem II [Development and Validation of a Survey Instrument (AKA) Towards Attitude, Knowledge and Application of STEM] 3.1 Introduction 43 3.2 Literature Review 45 3.2.1 Teachers’ Attitude, Knowledge and Application of STEM 45 3.2.2 Research Focus 47 3.3 Methodology of Research 47 3.3.1 General Background 47 3.3.2 Sample of Research 48 3.3.3 Procedure 48 3.3.4 Data Analysis 49 3.4 Results of Research 50 3.4.1 Development of Domain and Item Pool 50 3.4.2 Reliability of Instrument 50 3.4.3 Validity of Instrument 51 3.4.4 Final Instrument 55 3.5 Discussion 55 3.6 Conclusion 58 References Appendix Stem III [Assessing Teacher’s Attitude, Knowledge, and Application (AKA) on STEM: An Effort to Foster the Sustainable Development of STEM Education] 4.1 Introduction 65 4.1.1 The Importance of Assessment 66 4.1.2 The Domain of Attitude, Knowledge, and Application of STEM 67 4.1.3 Education for Sustainable Development 69 4.1.4 The State of the Problem 70 4.1.5 Objectives of the Study 70 4.2 Materials and Methods 71 4.2.1 General background 71 4.2.2 Sample 71 4.2.3 Instrument 72 4.2.4 Data Analysis 74 4.3 Result 74 4.3.1 Descriptive Data 74 4.3.2 Comparison of STEM Attitude (SAt), STEM Knowledge (SK), and STEM Application (SAp) Based on Demographics’ Data 77 4.3.3 Perception Regarding STEM Difficulties 78 4.4 Discussion 80 4.4.1 An Astonishing Finding of STEM in Indonesia 80 4.4.2 Diversity of STEM-Related Factors 81 4.4.3 Assessment as a Tool to Foster Sustainable Development of STEM Education 83 4.5 Conclusions and Implications 84 4.5.1 Conclusion 84 4.5.2 Limitation and Academic Implications 85 References Stem IV [Teaching Socio-Scientific Issues through STEM Education: An Effective Practical Averment from Indonesian Science Lesson] 5.1 Introduction 91 5.2 Theoretical Framework 92 5.2.1 Learning Science by Socio-scientific Issue Approach 92 5.2.2 STEM Education and 6E Learning Model 93 5.2.3 Evaluation on the Learning Effectiveness 95 5.3 Method 96 5.3.1 Participants 96 5.3.2 Intervention 96 5.3.3 Instrument 98 5.3.3 Data Analysis 99 5.4 Results 99 5.4.1 Learning Discourses of SSI Based-instruction by the STEM-6E 100 5.4.2 Impact on the Academic Learning Achievement 103 5.4.3 Students’ Perception after the Intervention 105 5.5 Discussion 106 5.5.1 The Interrelationship of SSI and STEM-6E Promotes Student’ Academic Learning Achievement 106 5.5.2 A Combination between Socio-scientific Issue and STEM Education Cultivates Students’ Self-Awareness, Motivation, and Multi-perspective Thinking 108 5.5.3 Role of Instructional Properties 109 5.6 Conclusion & Implications 110 References Fruits [Conclusion, Recommendation, and Future Directions] 6.1 Conclusion 115 6.2 General Recommendation for the Indonesian Government 117 6.3 Future Directions 118

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