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The Wireless Charging Area for Electric Cars is introduced as an innovative solution to support the rapid growth of electric vehicles and the increasing demand for efficient, accessible, and user friendly charging infrastructure. Unlike conventional charging stations that rely on plug in cables, this system eliminates physical connectors and instead provides a seamless wireless charging experience, ensuring greater convenience and safety for users. The main problem addressed by this project is the inconvenience and risks associated with cable based charging. Traditional plug in systems often require frequent maintenance and may pose hazards such as short circuits, tripping risks, or cable wear and tear. These issues not only reduce user satisfaction but also discourage wider adoption of electric vehicles, creating an urgent need for a safer and more practical charging alternative. The objective of this project is to develop a wireless charging system that is capable of efficiently transferring energy to electric vehicles without the use of physical cables. The design focuses on enhancing user convenience, improving charging accessibility, and promoting safer and smarter charging environments in both public and private spaces. The system operates using a coil based inductive power transfer mechanism combined with a smart control unit. The transmitting coil generates a magnetic field that wirelessly transfers energy to a receiving coil installed in the vehicle. The control unit regulates energy flow to ensure efficiency and prevent unnecessary power loss. The charging panels can be installed in high demand areas such as shopping complexes, traffic light waiting zones and selected highways, thereby transforming idle vehicle time into useful charging opportunities. The novelty of this innovation lies in the integration of inductive charging into everyday driving environments. Unlike conventional stations, this system allows electric vehicles to charge during daily routines, reducing downtime and enhancing user experience. In terms of applicability, the system can be implemented in public infrastructure as well as private spaces such as residential areas, office car parks, and fleet depots. Its commercial value is reinforced by the rising global EV market and strong government incentives for green technologies. The system uses affordable materials such as copper coils, insulating layers, and an intelligent control unit, which ensures scalability and low production cost. The impact of this innovation is significant as it promotes sustainable mobility, supports the transition towards green transportation, and enhances energy efficiency while creating new revenue opportunities for businesses and municipalities. With further research, safety validation, and large-scale deployment, wireless charging areas can serve as a cornerstone of future smart cities and accelerate the widespread adoption of electric mobility.