Nonstop flight route between Corcoran, California, United States and Shafter, California, United States:
Departure Airport:
Arrival Airport:
Distance from CRO to MIT:
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- About this route
- CRO Airport Information
- MIT Airport Information
- Facts about CRO
- Facts about MIT
- Map of Nearest Airports to CRO
- List of Nearest Airports to CRO
- Map of Furthest Airports from CRO
- List of Furthest Airports from CRO
- Map of Nearest Airports to MIT
- List of Nearest Airports to MIT
- Map of Furthest Airports from MIT
- List of Furthest Airports from MIT
About this route:
A direct, nonstop flight between Corcoran Airport (CRO), Corcoran, California, United States and Shafter Airport (MIT), Shafter, California, United States would travel a Great Circle distance of 47 miles (or 76 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 Corcoran Airport and Shafter Airport, the route shown on this map most likely still appears to be a straight line.
Departure Airport Information:
IATA / ICAO Codes: | CRO / KCRO |
Airport Name: | Corcoran Airport |
Location: | Corcoran, California, United States |
GPS Coordinates: | 36°6'10"N by 119°35'40"W |
Area Served: | Corcoran, California |
Operator/Owner: | Lakeland Dusters, Inc. |
Airport Type: | Public |
Elevation: | 197 feet (60 meters) |
# of Runways: | 1 |
View all routes: | Routes from CRO |
More Information: | CRO Maps & Info |
Arrival Airport Information:
IATA / ICAO Codes: | MIT / KMIT |
Airport Names: |
|
Location: | Shafter, California, United States |
GPS Coordinates: | 35°30'20"N by 119°11'30"W |
Area Served: | Shafter, California |
Operator/Owner: | Minter Field Airport District |
Airport Type: | Public |
Elevation: | 424 feet (129 meters) |
# of Runways: | 2 |
View all routes: | Routes from MIT |
More Information: | MIT Maps & Info |
Facts about Corcoran Airport (CRO):
- Corcoran Airport (CRO) currently has only 1 runway.
- The closest airport to Corcoran Airport (CRO) is Mefford Field (TLR), which is located only 15 miles (25 kilometers) ENE of CRO.
- Because of Corcoran Airport's relatively low elevation of 197 feet, planes can take off or land at Corcoran Airport 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 Corcoran Airport (CRO) is Pierrefonds Airport (ZSE), which is located 11,372 miles (18,302 kilometers) away in Saint-Pierre, Réunion.
Facts about Shafter Airport (MIT):
- The furthest airport from Shafter Airport (MIT) is Pierrefonds Airport (ZSE), which is located 11,404 miles (18,353 kilometers) away in Saint-Pierre, Réunion.
- Shafter Airport (MIT) has 2 runways.
- In addition to being known as "Shafter Airport", another name for MIT is "Minter Field".
- The Gossamer Condor piloted by Bryan Allen won the first Kremer prize on August 23, 1977 by completing a figure '8' course specified by the Royal Aeronautical Society at Minter Field.
- With the relative completion of construction in July 1942, the airfield was renamed Minter Field Army Airfield a member of the locally prominent Minter family.
- With the end of the war in 1945, airfield was determined to be excess by the military and turned over to the local government for civil use in March 1948.
- The closest airport to Shafter Airport (MIT) is Meadows Field (BFL), which is located only 9 miles (15 kilometers) ESE of MIT.
- Because of Shafter Airport's relatively low elevation of 424 feet, planes can take off or land at Shafter Airport 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.