# calculating Lat and Long from Bearing and Distance

I'm having a hard time wrapping my head around some Trigonometry. I am trying to deduce a destination latitude and longitude from a start lat and log and distance and bearing.

Fortunately, I found an amazing site which describes exactly the function I need: http://www.movable-type.co.uk/scripts/latlong.html " Destination point given distance and bearing from start point " I tried it in my java program but it is not working for me. I deployed it as the website said. Here is my code:

``````double dist = 150/6371;

double lat2 = Math.asin( Math.sin(lat1)*Math.cos(dist) + Math.cos(lat1)*Math.sin(dist)*Math.cos(brng) );
double a = Math.atan2(Math.sin(brng)*Math.sin(dist)*Math.cos(lat1), Math.cos(dist)-Math.sin(lat1)*Math.sin(lat2));
System.out.println("a = " +  a);
double lon2 = lon1 + a;

lon2 = (lon2+ 3*Math.PI) % (2*Math.PI) - Math.PI;

System.out.println("Latitude = "+Math.toDegrees(lat2)+"\nLongitude = "+Math.toDegrees(lon2));
``````

But it shows the output is:

``````a = 0.0
Latitude = 26.882880455723377
Longitude = 75.78369140625
``````

I am not getting where i am doing the mistake. Please anybody can help me to find out the problem.

-
Thre are some nice little libraries to help with this, e.g. code.google.com/p/simplelatlng/wiki/GettingStarted –  Mark McLaren Apr 12 '12 at 7:51
Mark - thanks a lot for this little hookup. –  Vaiden Jul 17 '13 at 14:05

``````double dist = 150.0 / 6371.0;
The reason is that `150/6371` gets calculated as `0`, because it performs integer division (rather than floating point division). This is true even though the result is being stored in a `double`. You can force floating point division by making one of the two numbers a floating point literal.