by miles
Latitude: The distance in degrees from the equator. Longitude: The distance in degrees east or west of the prime meridian.
We use longitude and latitude when looking at a map to calculate time.
GPS receivers do not 'use' elevation for anything. They use the signals from several satellites simultaneously to calculate the latitude, longitude, and elevation of the receiver's location. It takes a minimum of three satellites to calculate the latitude and longitude, a minimum of four satellites to calculate the latitude, longitude, and elevation, if more satellites can be found the latitude, longitude, and elevation calculations can be refined more accurately.
GPS receivers do not 'use' elevation for anything. They use the signals from several satellites simultaneously to calculate the latitude, longitude, and elevation of the receiver's location. It takes a minimum of three satellites to calculate the latitude and longitude, a minimum of four satellites to calculate the latitude, longitude, and elevation, if more satellites can be found the latitude, longitude, and elevation calculations can be refined more accurately.
The longitude lines are always the same distance from each other.
Please note: The distance is calculated "as the crow flies". I use the latitude and longitude of the cities to calculate the distance, so this may vary from the driving distances. Please note: The distance is calculated "as the crow flies". I use the latitude and longitude of the cities to calculate the distance, so this may vary from the driving distances.
Latitude: The distance in degrees from the equator. Longitude: The distance in degrees east or west of the prime meridian.
Every point on Earth has latitude and longitude. The countries in South America are no exception.
The horizontal distance. Points of latitude and longitude can't account for elevation.
We use longitude and latitude when looking at a map to calculate time.
east and west
GPS receivers do not 'use' elevation for anything. They use the signals from several satellites simultaneously to calculate the latitude, longitude, and elevation of the receiver's location. It takes a minimum of three satellites to calculate the latitude and longitude, a minimum of four satellites to calculate the latitude, longitude, and elevation, if more satellites can be found the latitude, longitude, and elevation calculations can be refined more accurately.
GPS receivers do not 'use' elevation for anything. They use the signals from several satellites simultaneously to calculate the latitude, longitude, and elevation of the receiver's location. It takes a minimum of three satellites to calculate the latitude and longitude, a minimum of four satellites to calculate the latitude, longitude, and elevation, if more satellites can be found the latitude, longitude, and elevation calculations can be refined more accurately.
GPS receivers do not 'use' elevation for anything. They use the signals from several satellites simultaneously to calculate the latitude, longitude, and elevation of the receiver's location. It takes a minimum of three satellites to calculate the latitude and longitude, a minimum of four satellites to calculate the latitude, longitude, and elevation, if more satellites can be found the latitude, longitude, and elevation calculations can be refined more accurately.
The longitude lines are always the same distance from each other.
Location of a point on the surface of the earth.
All of the other meridians; the lines of longitude.