Thesis Abstract

Abstract
This thesis explores the impact of virtual reality (VR) simulations on student learning in high school physics classes. The integration of VR technology in education has gained significant attention in recent years due to its potential to enhance student engagement and understanding of complex concepts. This study aims to investigate how the use of VR simulations influences student learning outcomes, motivation, and overall academic performance in the context of high school physics education. The research methodology employed in this study includes a mixed-methods approach, combining quantitative data analysis with qualitative insights gathered through surveys, interviews, and classroom observations. A sample of high school physics students will participate in the study, with some students exposed to traditional teaching methods while others engage with VR simulations as part of their learning experience. Chapter One provides an introduction to the research topic, outlining the background of the study, problem statement, objectives, limitations, scope, significance, and structure of the thesis. Chapter Two offers a comprehensive literature review on the use of VR technology in education, highlighting its benefits and challenges in enhancing student learning outcomes. Chapter Three details the research methodology, including the selection of participants, data collection procedures, and analysis techniques. This chapter also discusses ethical considerations and potential limitations of the study. Chapter Four presents the findings of the research, analyzing the impact of VR simulations on student learning outcomes, motivation, and engagement in high school physics classes. The results of the study indicate that students who engaged with VR simulations demonstrated increased understanding of physics concepts, higher levels of motivation, and improved academic performance compared to those who received traditional instruction. The discussion in Chapter Four explores these findings in depth, considering the implications for future educational practices and the integration of VR technology in high school physics curricula. Chapter Five provides a conclusion and summary of the thesis, highlighting the key findings, implications, and recommendations for educators and policymakers. Overall, this research contributes to the growing body of literature on the use of VR technology in education and its impact on student learning in high school physics classes.

Thesis Overview

The project titled "Exploring the Impact of Virtual Reality Simulations on Student Learning in High School Physics Classes" aims to investigate the influence of virtual reality (VR) simulations on the learning outcomes of high school students in physics classes. Virtual reality technology has gained significant attention in education for its potential to enhance student engagement and understanding of complex concepts. This research seeks to explore how incorporating VR simulations into physics instruction can positively impact student learning experiences and academic achievement. The study will involve high school students enrolled in physics classes, where a group of students will receive traditional instruction while another group will engage with VR simulations as part of their learning activities. By comparing the performance and attitudes of these two groups, the research aims to evaluate the effectiveness of VR simulations in improving student comprehension, retention, and interest in physics concepts. Key components of the research will include designing and implementing VR simulations that align with the physics curriculum, assessing student learning outcomes through pre- and post-tests, surveys, and observational data, and analyzing the data to identify any significant differences between the two groups. The findings of this study will contribute to the growing body of research on the use of VR technology in education and provide valuable insights into its potential benefits for enhancing student learning in the field of physics. Overall, this research overview highlights the importance of investigating the impact of VR simulations on student learning in high school physics classes and underscores the potential of immersive technology to transform the educational experience and improve academic outcomes for students.