The automotive industry is quickly transitioning from IC engine vehicles to electric vehicles as we enter a new era of automobiles. The growing demand for electric vehicles is also driving up the number of charging stations. In this idea, the automobile is charged wirelessly through inductive coupling using a wireless charging system. All we have to do is pull the automobile into the charging station. Wireless Power Transmission is the process of sending electrical energy from a source to a load over a distance without the need of cables or other conducting wires. Nikola Tesla’s greatest invention was the idea of wireless power transfer. There is no need for human contact with this technology. One technology that may be a step towards the future is wireless power transmission. With the help of this project, wireless charging may become more practical for everyday usage. Magnetic resonance-based wireless power transfer (WPT) is a technology that has the potential to free people from obtrusive wires. Actually, the WPT uses the same fundamental theory known as inductive power transfer that has been studied for at least thirty years. WPT technology has advanced quickly in the last many years. With a load efficiency above 90%, the power transfer distance grows from several millimeters to several hundred millimeters at the mill watts to kilowatts power level. Electric vehicle (EV) charging applications find the WPT highly appealing due to its advancements, as it can be used in both stationary and dynamic charging settings. The WPT technologies that are relevant to EV wireless charging are represented in this presentation. The challenges of charging time, range, and cost can be readily reduced by implementing WPT in EVs. With the widespread adoption of EVs, battery technology is no longer significant. It is believed that the cutting-edge accomplishments would inspire researchers to further both the spread of EV and the continued development of WPT.