# How can I find lat long of a point with a given lat long value and distance

I have a point A (52.132781727864, -106,63492619991302). From point A i would like to get the lat, long of point B which is 5 km South from point A.

How can I get the the lat long of point B? I'm coding in Java.

Edit: If the point is in South-East what should I do?

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I think ilya gave the correct answer (I assume the formular is correct). To understand the theory you can search the web for geographic coordinate systems –  hage Mar 3 '11 at 18:48
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## 5 Answers

5km in angles = ((5 / (6371 * pi)) * 180) = 0.0449660803. This number should be subtracted from the latitude. Longitude remains same.

PS. Thanks to Carlos Heuberger for correction.

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Thanks a lot. I'll have a look. But can you please mention one more thing? if the point is in a south-east position then what should I do? –  Pow Mar 3 '11 at 18:49
not correct, that is only about 1.5 km. 1 latitude degree is 111.12 km, you have to subtract `5 / 111.12 = 0.04499640' –  Carlos Heuberger Mar 3 '11 at 18:52
remove the last `pi` and it will be correct. –  Carlos Heuberger Mar 3 '11 at 18:58
Assuming GPS (WGS84) near 52.132781727864° N, the surface distance per 1° change in latitude is closer to 111.2699 km/°. –  trashgod Mar 3 '11 at 19:50
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I highly recommend using GeoTools for earth surface geometry, as it factors in the earth as an ellipsoid (the earth is not a perfect sphere). In particular take a look at GeodeticCalculator where you set the starting position and direction (azimuth and distance) and then get the destination position.

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Extending the question to "How can I find lat long of a point with a given lat long value, distance and direction", here an approximation for shorter distances (less than about 1000 km)

``````d = dist / 111.12      (1)
dlat = d * cos(dir)
latm = lat1 + dlat / 2
dlon = d * sin(dir) / cos(latm)

lat2 = lat1 + dlat
lon2 = lon1 + dlon
``````

Where:
- `lat1` and `lon1` - the starting coordinates (North and East are positive) - `dist` - the distance in kilometers
- `dir` - the starting direction (2)
- `lat2` and `lon2` - the resulting coordinates

(1) assuming the spherical earth model
(2) `dir = 135°` for South-East

based on Astrosail - Mittelbreitenverfahren

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I had the same problem a little time along. Since in my case the original data was in UTM, the product only had to work in a given zone, and the distance to add was not very big, all I had to do was calculating sinus and cosinus and adding easting and northing to the initial poing

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