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# find latitude and longitude using distance

I want to find Latitude, for example

``````Point A = (18.5204303,73.8567437)
Point B = (x,73.8567437)
Distance =20KM(Kilometers)
``````

I need to find the latitude(x) of Point B, that is 20 KM from point A.Longitude should be same. Help me Thanks in advance

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Don't you need an angle as well? Otherwise there is an infinite number of `B = (x, y)` points matching your criteria - on a circle with 20km radius and centre in `A`... – Tomasz Nurkiewicz Jan 15 '12 at 9:50
Yes,i need Angular radius, But i don't know how to find it. – Nishu Jan 15 '12 at 9:53
so you have a single equation with two unknowns - math is against you ;-). You need to know both: radius and angle to be able to find exactly one `B`. – Tomasz Nurkiewicz Jan 15 '12 at 9:56
I checked this link janmatuschek.de/LatitudeLongitudeBoundingCoordinates (section 3.1) sort out with some formula,But it is not matching with the circle drawn at 20km – Nishu Jan 15 '12 at 10:00
i apologize, here longitude will be fixed that is in Point A = (18.5204303,73.8567437) Point B = (x,73.8567437) Distance =20KM(Kilometers) – Nishu Jan 15 '12 at 10:03

i found answer for my question

``````var lat1 = 18.5204303;
var lon1 = 73.8567437;
var d = 20;   //Distance travelled
var R = 6371;
var brng = 0;
var LatMax;
var lat2 = Math.asin( Math.sin(lat1)*Math.cos(d/R) +
Math.cos(lat1)*Math.sin(d/R)*Math.cos(brng) );

var lon2 = lon1 + Math.atan2(Math.sin(brng)*Math.sin(d/R)*Math.cos(lat1),
Math.cos(d/R)-Math.sin(lat1)*Math.sin(lat2));
lon2 = (lon2+3*Math.PI) % (2*Math.PI) - Math.PI;
lat2= toDeg(lat2);
lon2= toDeg(lon2);

/** Converts numeric degrees to radians */
return Value * Math.PI / 180;
}
function toDeg(Value) {
return Value * 180 / Math.PI;
}
``````

Thank you all

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I'm not sure if this should be an answer or a comment. But since I can't write comments yet I'll write an answer.

This page is a great source for doing distance calculations. In this case you are probably looking for code to calculate the new position when traveling along a rhumb line from a given position. Quote from linked page:

To find the lat/lon of a point on true course tc, distance d from (lat1,lon1) along a rhumbline (initial point cannot be a pole!):

``````lat= lat1+d*cos(tc)
IF (abs(lat) > pi/2) "d too large. You can't go this far along this rhumb line!"
IF (abs(lat-lat1) < sqrt(TOL))
{
q=cos(lat1)
}
ELSE
{
dphi=log(tan(lat/2+pi/4)/tan(lat1/2+pi/4))
q= (lat-lat1)/dphi
}
dlon=-d*sin(tc)/q
lon=mod(lon1+dlon+pi,2*pi)-pi
``````

The link is still useful but you will have to use some algebra to solve for a known longitude and unknown course. Since you are quite far north great circle distances may be more useful than rhumb lines. But I guess that depends on the problem.

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I am not an expert in this. But i used to calculate the distance between two points using the formulae by movable-type.

Please check the site. it ll give you some hint. I think this destination and rhumblines formulae are similar to your requirement. Have a look

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These are not an algorithms, just formulae. – OnTheFly Jan 15 '12 at 10:31
yeah right, its formulae.. – RameshVel Jan 15 '12 at 10:33
Thank you RameshVel, Good Link and i am done.... – Nishu Jan 15 '12 at 11:51
you can mark it as a answer if it helped.. so someone can find it useful – RameshVel Jan 15 '12 at 12:17
Thank you Ramesh, i figured out logic for my question through your link and posted my answer. – Nishu Jan 16 '12 at 9:47