Nonstop flight route between Aurillac, France and Broome, Western Australia, Australia:
Departure Airport:
Arrival Airport:
Distance from AUR to BME:
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- About this route
- AUR Airport Information
- BME Airport Information
- Facts about AUR
- Facts about BME
- Map of Nearest Airports to AUR
- List of Nearest Airports to AUR
- Map of Furthest Airports from AUR
- List of Furthest Airports from AUR
- Map of Nearest Airports to BME
- List of Nearest Airports to BME
- Map of Furthest Airports from BME
- List of Furthest Airports from BME
About this route:
A direct, nonstop flight between Aurillac – Tronquières Airport (AUR), Aurillac, France and Broome International Airport (BME), Broome, Western Australia, Australia would travel a Great Circle distance of 8,536 miles (or 13,737 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 large distance between Aurillac – Tronquières Airport and Broome International Airport, the route shown on this map most likely appears curved because of this reason.
Try it at home! Get a globe and tightly lay a string between Aurillac – Tronquières Airport and Broome International Airport. You'll see that it will travel the same route of the red line on this map!
Departure Airport Information:
IATA / ICAO Codes: | AUR / LFLW |
Airport Names: |
|
Location: | Aurillac, France |
GPS Coordinates: | 44°53'51"N by 2°25'0"E |
Area Served: | Aurillac, Cantal, Auvergne, France |
Operator/Owner: | CABA |
Airport Type: | Public |
Elevation: | 2096 feet (639 meters) |
# of Runways: | 1 |
View all routes: | Routes from AUR |
More Information: | AUR Maps & Info |
Arrival Airport Information:
IATA / ICAO Codes: | BME / YBRM |
Airport Name: | Broome International Airport |
Location: | Broome, Western Australia, Australia |
GPS Coordinates: | 17°56'58"S by 122°13'40"E |
Operator/Owner: | Broome International Airport |
Airport Type: | Public |
Elevation: | 56 feet (17 meters) |
# of Runways: | 1 |
View all routes: | Routes from BME |
More Information: | BME Maps & Info |
Facts about Aurillac – Tronquières Airport (AUR):
- Aurillac – Tronquières Airport (AUR) currently has only 1 runway.
- In addition to being known as "Aurillac – Tronquières Airport", another name for AUR is "Aéroport d'Aurillac – Tronquières".
- The closest airport to Aurillac – Tronquières Airport (AUR) is Rodez–Aveyron Airport (RDZ), which is located 34 miles (55 kilometers) S of AUR.
- The furthest airport from Aurillac – Tronquières Airport (AUR) is Chatham Islands (CHT), which is nearly antipodal to Aurillac – Tronquières Airport (meaning Aurillac – Tronquières Airport is almost on the exact opposite side of the Earth from Chatham Islands), and is located 12,343 miles (19,865 kilometers) away in Waitangi, Chatham Islands, New Zealand.
Facts about Broome International Airport (BME):
- Broome International Airport handled 5,828 passengers last year.
- The closest airport to Broome International Airport (BME) is Derby Airport (DRB), which is located 102 miles (165 kilometers) ENE of BME.
- The furthest airport from Broome International Airport (BME) is Barbuda Codrington Airport (BBQ), which is nearly antipodal to Broome International Airport (meaning Broome International Airport is almost on the exact opposite side of the Earth from Barbuda Codrington Airport), and is located 12,169 miles (19,584 kilometers) away in Codrington, Barbuda, Antigua and Barbuda.
- Broome International Airport (BME) currently has only 1 runway.
- Because of Broome International Airport's relatively low elevation of 56 feet, planes can take off or land at Broome International 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.