Nonstop flight route between Millington, Tennessee, United States and Uvalde, Texas, United States:
Departure Airport:
Arrival Airport:
Distance from NQA to UVA:
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- About this route
- NQA Airport Information
- UVA Airport Information
- Facts about NQA
- Facts about UVA
- Map of Nearest Airports to NQA
- List of Nearest Airports to NQA
- Map of Furthest Airports from NQA
- List of Furthest Airports from NQA
- Map of Nearest Airports to UVA
- List of Nearest Airports to UVA
- Map of Furthest Airports from UVA
- List of Furthest Airports from UVA
About this route:
A direct, nonstop flight between Millington Regional Jetport (NQA), Millington, Tennessee, United States and Garner Field (UVA), Uvalde, Texas, United States would travel a Great Circle distance of 716 miles (or 1,152 kilometers).
A Great Circle is the shortest distance between 2 points on a sphere. Because most world maps are flat (but the Earth is round), the route of the shortest distance between 2 points on the Earth will often appear curved when viewed on a flat map, especially for long distances. If you were to simply draw a straight line on a flat map and measure a very long distance, it would likely be much further than if you were to lay a string between those two points on a globe. Because of the relatively short distance between Millington Regional Jetport and Garner Field, the route shown on this map most likely still appears to be a straight line.
Departure Airport Information:
IATA / ICAO Codes: | NQA / KNQA |
Airport Name: | Millington Regional Jetport |
Location: | Millington, Tennessee, United States |
GPS Coordinates: | 35°21'24"N by 89°52'13"W |
Operator/Owner: | Millington Airport Authority |
Airport Type: | Public |
Elevation: | 320 feet (98 meters) |
# of Runways: | 1 |
View all routes: | Routes from NQA |
More Information: | NQA Maps & Info |
Arrival Airport Information:
IATA / ICAO Codes: | UVA / KUVA |
Airport Name: | Garner Field |
Location: | Uvalde, Texas, United States |
GPS Coordinates: | 29°12'41"N by 99°44'36"W |
Area Served: | Uvalde, Texas |
Operator/Owner: | City of Uvalde |
Airport Type: | Public |
Elevation: | 942 feet (287 meters) |
# of Runways: | 1 |
View all routes: | Routes from UVA |
More Information: | UVA Maps & Info |
Facts about Millington Regional Jetport (NQA):
- The closest airport to Millington Regional Jetport (NQA) is Memphis International Airport (MEM), which is located 23 miles (36 kilometers) SSW of NQA.
- On December 9, 2008, a Mitsubishi MU-2 crash-landed during an emergency landing.
- During the postwar period of the mid-1940s through the mid-1990s, NAS Memphis hosted numerous locally-based Naval Air Reserve and Marine Air Reserve flying squadrons, as well as a major naval air technical training center that provided the bulk of enlisted aviation speciality training for the US Navy and Marine Corps.
- Millington Regional Jetport (NQA) currently has only 1 runway.
- Because of Millington Regional Jetport's relatively low elevation of 320 feet, planes can take off or land at Millington Regional Jetport at a lower air speed than at airports located at a higher elevation. This is because the air density is higher closer to sea level than it would otherwise be at higher elevations.
- The furthest airport from Millington Regional Jetport (NQA) is Margaret River Airport (MGV), which is located 11,018 miles (17,731 kilometers) away in Margaret River, Western Australia, Australia.
Facts about Garner Field (UVA):
- Trans-Texas DC-3s landed at Uvalde for a few years ending around 1954.
- Garner Field (UVA) currently has only 1 runway.
- The furthest airport from Garner Field (UVA) is Sir Gaëtan Duval Airport (RRG), which is located 11,192 miles (18,012 kilometers) away in Rodrigues Island, Mauritius.
- The closest airport to Garner Field (UVA) is South Texas Regional Airport at Hondo (HDO), which is located 36 miles (57 kilometers) ENE of UVA.
- Because of Garner Field's relatively low elevation of 942 feet, planes can take off or land at Garner Field at a lower air speed than at airports located at a higher elevation. This is because the air density is higher closer to sea level than it would otherwise be at higher elevations.