Advanced Air Mobility (AAM) corridors are a vital concept in the growing field of urban air mobility (UAM) and are critical for facilitating safe and efficient integration of AAM/UAM aircraft with the National Airspace System (NAS). These corridors are designated airspace routes designed for the safe operation of crewed and uncrewed aircraft carrying passengers and goods in platforms such as electric vertical takeoff and landing (eVTOL) vehicles. AAM corridors will eventually shape the future of air mobility and will change how both people and goods move within and between cities. With defined routes and altitude for AAM operations, it will ensure separation between these different aircraft types and significantly reduce the risk of collisions. As the NAS becomes more complex, AAM corridors will also help by improving the management of traffic by being integrated with existing air traffic control systems to limit disruptions. Also, by providing specific routes for AAM/UAM vehicles, these corridors can lower congestion in complex airspace, improve operational speed, and reduce travel times. AAM/UAM operations are likely to expand as time goes on and should be scalable, so they can accommodate the expected increase in traffic volume while still prioritizing safety and minimizing the risks to airspace operations, ground activities and infrastructure. This study proposes an AAM corridor operating at an altitude above 2,000 feet, connecting the cities of Thompson and Fargo in North Dakota, with designated vertiports at each location. Several key design considerations have been identified as important when designing AAM corridors, including focusing on minimizing the impact on existing NAS operations by accounting for current air traffic and addressing public concerns such as noise and safety, by avoiding more densely populated areas. Furthermore, the study examines the establishment of the route for AAM/UAM vehicles during airport entry and departure operations. In addit...