Drones are an area of much excitement and innovation due to their versatility and demonstrated effectiveness in a plethora of critical applications. Studies and research have shown that in areas such as agriculture, environmental stewardship, and disaster management, drones have consistently shown a significant advantage over traditional data collection and response methods. However, in remote and rural areas, access to resources and technological expertise are limited and drones' potential benefits remain untapped. This paper presents the design and simulated analysis of a modular drone tailored for beginner-friendly and resource-constrained applications, featuring a customizable payload bays to accommodate various sensors and devices for weather monitoring, seed dispersal, wildlife observation, and even to spark the curiosity of young learners. The drone's modular design allows for ease of assembly, use, and repair, increasing accessibility to this technology. Structural and thermal analyses were conducted to assess the durability of the airframe under typical load conditions, while also considering a factor of safety. The design and simulation results presented in the paper aim to bridge the technological gap, proposing a practical solution to the unique needs and challenges faced by rural and remote communities.