A remote pilot arrives at a construction documentation job in Denver (field elevation 5,400 feet MSL) on a July afternoon. Temperature is 94°F, pressure is 30.10 inHg, and the planned altitude is 200 feet AGL. The drone's spec sheet lists 'rated ceiling 16,000 feet' under standard atmospheric conditions. What performance consideration should dominate the pilot's pre-flight planning?
Why →
Density altitude combines pressure altitude and non-standard temperature. On a 94°F day at Denver's elevation with near-standard pressure, density altitude is roughly 8,500 to 9,000 feet. Rotor lift efficiency and battery discharge characteristics both degrade at high density altitude. The published 16,000-foot rated ceiling assumes standard atmosphere and does not account for the thinner air the drone will fly in.The trap →
Choice B treats the rated ceiling as a hard physical number rather than a standard-atmosphere benchmark. Choice C is a common urban legend; cold-soaking LiPo batteries reduces delivered capacity when warmed back up and creates condensation risks.SOURCE → FAA Aviation Weather Handbook, Density Altitude; FAA-G-8082-22, PerformanceCHECKED APR 21ACS IV.A.K1MED