At ~2,080 nm, New York–Seattle sits right at the edge of the Pilatus PC-24's ~2,000 nm range. It can make the crossing nonstop in favorable winds and with a lighter load, but westbound headwinds or a full cabin may force a fuel stop — confirm the specific date and payload with your operator.
Range vs. Distance
| Measure | Value |
|---|---|
| New York → Seattle (great circle) | ~2,080 nm |
| Pilatus PC-24 range | ~2,000 nm |
| Margin | 80 nm beyond range |
| Aircraft class | light jet |
Book range (NBAA IFR) already includes fuel reserves, but westbound headwinds effectively add distance — which is why a route near the edge of an aircraft's range is treated as conditional rather than a guaranteed nonstop. The operating crew calculates final fuel for the specific date, winds, and payload.
Comparing aircraft? See the Aircraft Capability hub, the longest-range private jets, or the Pilatus PC-24 specifications.
Frequently Asked Questions
It depends. At ~2,080 nm, New York–Seattle sits right at the edge of the Pilatus PC-24's ~2,000 nm range. It can make the crossing nonstop in favorable winds and with a lighter load, but westbound headwinds or a full cabin may force a fuel stop — confirm the specific date and payload with your operator.
The great-circle distance is about 2,080 nautical miles. Real flight plans run a little longer because of routing and winds, and westbound legs effectively add distance against the prevailing flow.
About 2,000 nautical miles (NBAA IFR). That is enough for transcontinental US and regional trips, but not ocean crossings without a stop.
Roughly 5h 01m of block time, varying with winds and routing. Westbound legs against the prevailing winds run longer than eastbound.
Flying New York to Seattle?
We'll match the right aircraft for the mission — nonstop where the range allows, or a smart one-stop when it doesn't — with vetted operators and transparent pricing.