Project Abstract

Abstract
This research study explores the implementation of Inquiry-Based Learning (IBL) in high school science classrooms through a detailed case study. The primary focus of this research is to investigate the effectiveness of IBL as a pedagogical approach in enhancing students’ engagement, critical thinking skills, and overall learning outcomes in science education. The case study methodology allows for an in-depth examination of the impact of IBL on both students and teachers within a specific high school setting. The introduction sets the context for the study by providing a background of the research topic, highlighting the significance of implementing IBL in science education, and outlining the objectives of the study. The research problem is identified as the need to improve student engagement and learning outcomes in science education, which can be addressed through the adoption of IBL practices. The limitations and scope of the study are also discussed to provide a clear understanding of the research boundaries. Chapter Two presents a comprehensive literature review that delves into existing research on IBL in science education. The review includes ten key themes related to IBL, such as the benefits of inquiry-based approaches, challenges in implementation, teacher training and support, student motivation, and assessment strategies. This literature review serves as a foundation for the research study and helps to contextualize the current research within the broader field of science education. Chapter Three outlines the research methodology employed in the study, including details on the case study design, data collection methods, participant selection, and data analysis techniques. The chapter discusses the rationale behind choosing a case study approach and provides a detailed explanation of how data will be collected and analyzed to address the research questions. Chapter Four presents the findings of the case study, including insights into the implementation of IBL in the high school science classrooms, the impact on student engagement and learning outcomes, as well as the perspectives of teachers and students on the effectiveness of IBL. The discussion is structured around seven key themes derived from the data analysis, providing a nuanced understanding of the benefits and challenges of implementing IBL in the specific context of the case study. Chapter Five concludes the research study by summarizing the key findings, discussing the implications of the research for practice and policy in science education, and offering recommendations for future research. The conclusion highlights the significance of IBL as a pedagogical approach that can enhance student learning experiences in high school science classrooms and contributes to the ongoing discourse on effective teaching practices in science education. In conclusion, this research study provides valuable insights into the implementation of IBL in high school science classrooms through a detailed case study analysis. By examining the impact of IBL on student engagement, critical thinking skills, and learning outcomes, this research contributes to the existing literature on innovative pedagogical approaches in science education and offers practical recommendations for educators looking to enhance their teaching practices.

Project Overview