This research delves into the imperative of employing reverse logistics (RL) to manage the dynamic product recovery of electronic goods. Disposing of electrical items correctly is challenging due to their complexity, cost, and hazardous components. The study underscores the necessity of an efficient RL system to safely and effectively recover and reuse outdated electronic equipment. It explores the complexities associated with managing dynamic product recovery post-RL, particularly focusing on the lack of standardization in electronic design and production. Through a survey-based approach involving 400 participants, the study employs statistical analysis and Cronbach's alpha to validate the collected data. Findings emphasize the crucial role of a dependable RL system in mitigating the adverse environmental impact of electronic waste while enhancing the economic value of recycled materials. The abstract further discusses the evolving landscape of consumer preferences, regulatory frameworks, and technological advancements shaping the RL ecosystem. Key factors such as product design for disassembly, efficient collection and transportation networks, and refurbishment processes are highlighted. By embracing innovative strategies and fostering collaboration among stakeholders, businesses can effectively navigate challenges, reduce environmental footprints, and harness opportunities for sustainable growth in the electronic goods sector.Moreover, the study stresses the importance of continuous adaptation to evolving market demands and emerging technologies within the RL framework. It advocates for proactive measures to address future challenges and optimize resource utilization.