What is the total distance required to land over a 50-foot obstacle at a pressure altitude of 7,500 ft?

To determine the total distance required to land over a 50-foot obstacle at a pressure altitude of 7,500 feet, it is essential to consider the factors impacting landing performance, such as aircraft weight, wind conditions, runway surface, and altitude.

At a higher pressure altitude, like 7,500 feet, the aircraft experiences decreased engine performance and reduced lift due to thinner air. This necessitates a greater landing distance compared to sea level. When calculating the required landing distance in these conditions, one would typically reference performance charts specific to the aircraft.

The correct option indicates a landing distance that is likely derived from the aircraft's performance data specifically accounting for the altitude and obstacle clearance requirement. In this scenario, a total landing distance of 1,004 feet suggests a very efficient approach and landing, possibly due to favorable conditions such as reduced weight or favorable wind.

Understanding these performance characteristics allows pilots to make informed decisions during flight planning and helps ensure safe operations, especially when dealing with obstacles.