Is there a simple calculation I can do which will convert km into a value which I can add to a lat or lon float to calculate a bounding box for searches? It doesn't need to be completely accurate.

For instance: if I were given a lat/lon for London, England (51.5001524, -0.1262362) and I wanted calculate what the lat would be 25km east/west from that point, and what the lon would be 25km north/south of that point, what would I need to do to convert the 25km into a decimal to add to the values above?

I'm looking for a general rule-of-thumb, ie: 1km == +/- 0.XXX


My original search for "lat lon" didn't return this result:

How to calculate the bounding box for a given lat/lng location?

The accepted answer seems adequate for my requirements.


7 Answers 7


The approximate conversions are:

  • Latitude: 1 deg = 110.574 km
  • Longitude: 1 deg = 111.320*cos(latitude) km

This doesn't fully correct for the Earth's polar flattening - for that you'd probably want a more complicated formula using the WGS84 reference ellipsoid (the model used for GPS). But the error is probably negligible for your purposes.

Source: http://en.wikipedia.org/wiki/Latitude

Caution: Be aware that latlong coordinates are expressed in degrees, while the cos function in most (all?) languages typically accepts radians, therefore a degree to radians conversion is needed.

  • 1
    How did you came up with this? I'm missing something, can you please elaborate on the Longitude calculations? Ty
    – Odys
    Commented Jul 8, 2014 at 11:59
  • 5
    @Odys: If you're comparing two points that lie on the same line of longitude (north/south), they lie on a great circle and the conversion factor is just the Earth's polar circumference divided by 360 degrees. But it's different for east-west measurements, because (except for the equator) you're not measuring along a "great circle", so the "circumference" at a given latitude is smaller. And the correction factor turns out to be the cosine of the latitude.
    – Jim Lewis
    Commented Jul 8, 2014 at 16:02
  • 18
    My explanation: cos(0°) = 1 => Therefore there is no correction factor applied doing the calculation at the equator. The longitudes are the widest there. cos(90°) = 0 => At the poles the longitudes meet in one point. There is no distance to be calculated. Commented Sep 24, 2014 at 9:39
  • 5
    @Stijn: You need to convert from degrees to radians before calling Math.cos().
    – Jim Lewis
    Commented Oct 27, 2015 at 16:00
  • 2
    Is there a name and reference for this approximation?
    – Rafnuss
    Commented Nov 15, 2022 at 22:27

If you're using Java, Javascript or PHP, then there's a library that will do these calculations exactly, using some amusingly complicated (but still fast) trigonometry:



Thanks Jim Lewis for his great answer and I would like to illustrate this solution by my function in Swift:

func getRandomLocation(forLocation location: CLLocation, withOffsetKM offset: Double) -> CLLocation {
        let latDistance = (Double(arc4random()) / Double(UInt32.max)) * offset * 2.0 - offset
        let longDistanceMax = sqrt(offset * offset - latDistance * latDistance)
        let longDistance = (Double(arc4random()) / Double(UInt32.max)) * longDistanceMax * 2.0 - longDistanceMax
        let lat: CLLocationDegrees = location.coordinate.latitude + latDistance / 110.574
        let lng: CLLocationDegrees = location.coordinate.longitude + longDistance / (111.320 * cos(lat * .pi / 180))
        return CLLocation(latitude: lat, longitude: lng)

In this function to convert distance I use following formulas:

latDistance / 110.574
longDistance / (111.320 * cos(lat * .pi / 180))
  • 5
    I think it should be "lat * pi / 180"
    – magamig
    Commented Jul 6, 2020 at 16:30

http://www.jstott.me.uk/jcoord/ - use this library

            LatLng lld1 = new LatLng(40.718119, -73.995667);
            LatLng lld2 = new LatLng(51.499981, -0.125313);
            Double distance = lld1.distance(lld2);
            Log.d(TAG, "Distance in kilometers " + distance);

Interesting that I didn't see a mention of UTM coordinates.


At least if you want to add km to the same zone, it should be straightforward (in Python : https://pypi.org/project/utm/ )

utm.from_latlon and utm.to_latlon.

  • 2
    Thanks for the link to utm. Shocking that it seems to have no documentation at all.
    – Westworld
    Commented Jul 31, 2020 at 16:47

This is more accurate (Haversin formula) we use the radius of the earth

// distance (in km) between two points specified by latitude/longitude
function calcDistance(lat1, lon1, lat2, lon2) {
  var R = 6371; // km
  var dLat = (lat2-lat1).toRad();
  var dLon = (lon2-lon1).toRad();
  var a = Math.sin(dLat/2) * Math.sin(dLat/2) +
          Math.cos(lat1.toRad()) * Math.cos(lat2.toRad()) *
          Math.sin(dLon/2) * Math.sin(dLon/2);
  var c = 2 * Math.atan2(Math.sqrt(a), Math.sqrt(1-a));
  var d = R * c;
  return d;

Why not use properly formulated geospatial queries???

Here is the SQL server reference page on the STContains geospatial function:


or if you do not waant to use box and radian conversion , you cna always use the distance function to find the points that you need:

DECLARE @CurrentLocation geography; 
SET @CurrentLocation  = geography::Point(12.822222, 80.222222, 4326)

SELECT * , Round (GeoLocation.STDistance(@CurrentLocation ),0) AS Distance FROM [Landmark]
WHERE GeoLocation.STDistance(@CurrentLocation )<= 2000 -- 2 Km

There should be similar functionality for almost any database out there.

If you have implemented geospatial indexing correctly your searches would be way faster than the approach you are using

  • 1
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    – Dharman
    Commented Jan 23, 2020 at 20:05

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