Nonstop flight route between Houston, Texas, United States and Avoca, Pennsylvania, United States:
Departure Airport:
Arrival Airport:
Distance from AAP to AVP:
Share this route:
Jump to:
- About this route
- AAP Airport Information
- AVP Airport Information
- Facts about AAP
- Facts about AVP
- Map of Nearest Airports to AAP
- List of Nearest Airports to AAP
- Map of Furthest Airports from AAP
- List of Furthest Airports from AAP
- Map of Nearest Airports to AVP
- List of Nearest Airports to AVP
- Map of Furthest Airports from AVP
- List of Furthest Airports from AVP
About this route:
A direct, nonstop flight between Andrau Airpark (AAP), Houston, Texas, United States and Wilkes-Barre/Scranton International Airport (AVP), Avoca, Pennsylvania, United States would travel a Great Circle distance of 1,370 miles (or 2,205 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 Andrau Airpark and Wilkes-Barre/Scranton International Airport, the route shown on this map most likely still appears to be a straight line.
Departure Airport Information:
IATA / ICAO Codes: | AAP / KAAP |
Airport Name: | Andrau Airpark |
Location: | Houston, Texas, United States |
GPS Coordinates: | 29°43'0"N by 95°34'59"W |
Area Served: | Houston, Texas |
Operator/Owner: | Closed |
Airport Type: | General Aviation |
Elevation: | 80 feet (24 meters) |
# of Runways: | 2 |
View all routes: | Routes from AAP |
More Information: | AAP Maps & Info |
Arrival Airport Information:
IATA / ICAO Codes: | AVP / KAVP |
Airport Name: | Wilkes-Barre/Scranton International Airport |
Location: | Avoca, Pennsylvania, United States |
GPS Coordinates: | 41°20'17"N by 75°43'23"W |
Area Served: | Wilkes-Barre–Scranton |
Airport Type: | Public |
Elevation: | 962 feet (293 meters) |
# of Runways: | 2 |
View all routes: | Routes from AVP |
More Information: | AVP Maps & Info |
Facts about Andrau Airpark (AAP):
- The first known photo of the area is from 1953.
- Andrau Airpark (AAP) has 2 runways.
- The closest airport to Andrau Airpark (AAP) is Sugar Land Regional Airport (SGR), which is located only 8 miles (13 kilometers) SW of AAP.
- The airport served general aviation for west Houston, but a Douglas DC-3 and an A-26C Invader are known to have landed there.
- The furthest airport from Andrau Airpark (AAP) is Cocos (Keeling) Island Airport (CCK), which is located 10,987 miles (17,682 kilometers) away in Cocos Islands, Australia.
- Because of Andrau Airpark's relatively low elevation of 80 feet, planes can take off or land at Andrau Airpark 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.
Facts about Wilkes-Barre/Scranton International Airport (AVP):
- In May 2006 the airport completed an $80 million new terminal and garage.
- The closest airport to Wilkes-Barre/Scranton International Airport (AVP) is Wilkes-Barre Wyoming Valley Airport (WBW), which is located only 7 miles (12 kilometers) WSW of AVP.
- The furthest airport from Wilkes-Barre/Scranton International Airport (AVP) is Margaret River Airport (MGV), which is located 11,655 miles (18,757 kilometers) away in Margaret River, Western Australia, Australia.
- A project completed in late 2011 was the new control tower and Tracon facility.
- Wilkes-Barre/Scranton International Airport (AVP) has 2 runways.
- Because of Wilkes-Barre/Scranton International Airport's relatively low elevation of 962 feet, planes can take off or land at Wilkes-Barre/Scranton 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.