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Full Screen- TITLE
- DECLARATION
- CERTIFICATE
- ACKNOWLEDGEMENT
- CONTENTS
- ABSTRACT
- LIST OF TABLES
- LIST OF FIGURES
- LIST OF APPENDICES
- 1. INTRODUCTION
- 1.0. Chapter preview
- 1.1. Introduction
- 1.2. Need and significance of the study
- 1.3. Statement of the problem
- 1.4. Operational definitions of key terms
- 1.5. Hypotheses formulated
- 1.6. Objectives of the Study
- 1.7. Methodology in brief
- 1.8. Scope and limitations of the study
- 1.9. Format of the report
- References
- 2. REVIEW OF RELATED LITERATURE
- 2.0. Chapter Preview
- 2.1. Introduction
- 2.2. Metacognition for effective learning
- 2.3. A Focus on the contexts of teaching / learning
- 2.4. Learning outside the classroom
- 2.5. Apprenticeship System
- 2.6. Industry-Oriented Learning
- 2.7. Inter-relatedness of chemistry and industry
- 2.8. Models of teaching and learning
- 2.9. Conclusion
- References
- 3. METHODOLOGY
- 3.0. Chapter Preview
- 3.1. Introduction
- 3.2 Hypotheses formulated
- 3.3 Objectives of the study
- 3.4 Methods adopted for the Study
- 3.5 Tools and Techniques used for the Study
- 3.6 The sample for the study
- 3.7 Research Design
- Fig. 3.1 Research Design for the study
- Fig. 3.2: Input-Output Model developed by Khanna (1994)
- Fig: 3.3. Systematic Approach to Instruction
- 3.8 Statistical Techniques employed
- References
- 4. THEORY AND PREPARATION OF THE ATL MODEL
- 4.0. Chapter Preview
- 4.1 ATL Model – The Theoretical Base
- 4.1.1 Introduction
- 4.1.2 Cognitive theories of learning
- Fig. 4.1 Information processing models
- Fig.4.2 Thinking skills
- 4.1.3 Constructivist learning perspectives
- 4.1.4 Experiential Learning
- Fig.4.4. Kolbe’s learning cycle
- 4.1.5 Reflective level teaching/learning
- Fig. 4.5 Levels of teaching
- 4.1.6 Learning theories associated with direct instruction
- 4.1.7 Models of teaching and learning
- Fig. 4.6 The constructivist-oriented model of Horsely (1990)
- Fig. 4.7 Role of education and interdependency of Science, Technologyand Society
- Fig. 4.13 Learning Cycle developed by Walker, (1998)
- Fig. 4.18. A contextual model of learning by Falk and Dierking (2000)
- 4.2 Pre-preparation of the ATL Model
- 4.2.1 Identification of Chemistry education potential of industries inKerala
- 4.2.2 Field Studies and Reports of selected industries – By the investigator and the students
- Fig: 4.19 Production of Aspirin
- 4.2.3 Outcomes of the field studies.
- 4.3. Preparation and description of the ATL Model
- 4.3.1 Components of ATL Model
- Fig. 4.20 Components of ATL Model
- 4.3.2 Description of the phases of the model
- 4.3.3 Characteristics of the ATL Model
- 4.4. Preparation of lessons based on ATL Model – for learningthe topic ‘Cement’
- 4.4.1 Industrial environment selected.
- Fig: 4.21 Diagram showing the preparation of ‘White cement’
- 4.4.2 Selection of contents in the HSS curriculum
- 4.4.3 Preparation of Unit Plan
- 4.4.4. Preparation of Lesson plans
- 4.4.5 Conclusion
- References
- 5. EVALUATION OF THE ATL MODEL
- 5.0. Chapter Preview
- 5.1. Introduction
- 5.2. Effectiveness of ATL Model on learning Chemistry -Experimental study
- 5.3. Usefulness of the ATL Model
- Fig. 5.1. Components of ABL Model
- Fig. 5.2 The phases of the ABL Model
- 5.4. Tenability of Hypotheses
- 5.5. Preparation of Action Plan
- 5.6. Conclusion
- References
- 6. SUMMARY AND CONCLUSIONS
- 6.0 Chapter Preview
- 6.1 Study in Retrospect
- 6.2 Outcomes of the Study
- 6.3 Conclusions of the Study
- 6.4 Implications of the study
- 6.5 Suggestions for further research
- BIBLIOGRAPHY
- APPENDICES
- APPENDIX - A Industries – Different Cattegories (Product-wise Classification)
- APPENDIX B Data analysis sheet for industries
- APPENDIX -C Lesson Transcripts for ATL
- APPENDIX - D Achievement test I
- APPENDIX - E Achievement test I
- APPENDIX F Achievement test - II
- APPENDIX - G Achievement test - II
- APPENDIX - H Observation schedule