Here's what you are asking for. Kudos to Federico A. Ramponi who wrote the original in Python here.

```
public class MapPoint
{
public double Longitude { get; set; } // In Degrees
public double Latitude { get; set; } // In Degrees
}
public class BoundingBox
{
public MapPoint MinPoint { get; set; }
public MapPoint MaxPoint { get; set; }
}
// Semi-axes of WGS-84 geoidal reference
private const double WGS84_a = 6378137.0; // Major semiaxis [m]
private const double WGS84_b = 6356752.3; // Minor semiaxis [m]
public static BoundingBox GetBoundingBox(MapPoint point, double halfSideInKm)
{
// Bounding box surrounding the point at given coordinates,
// assuming local approximation of Earth surface as a sphere
// of radius given by WGS84
var lat = Deg2rad(point.Latitude);
var lon = Deg2rad(point.Longitude);
var halfSide = 1000 * halfSideInKm;
// Radius of Earth at given latitude
var radius = WGS84EarthRadius(lat);
// Radius of the parallel at given latitude
var pradius = radius * Math.Cos(lat);
var latMin = lat - halfSide / radius;
var latMax = lat + halfSide / radius;
var lonMin = lon - halfSide / pradius;
var lonMax = lon + halfSide / pradius;
return new BoundingBox {
MinPoint = new MapPoint { Latitude = Rad2deg(latMin), Longitude = Rad2deg(lonMin) },
MaxPoint = new MapPoint { Latitude = Rad2deg(latMax), Longitude = Rad2deg(lonMax) }
};
}
// degrees to radians
private static double Deg2rad(double degrees)
{
return Math.PI * degrees / 180.0;
}
// radians to degrees
private static double Rad2deg(double radians)
{
return 180.0 * radians / Math.PI;
}
// Earth radius at a given latitude, according to the WGS-84 ellipsoid [m]
private static double WGS84EarthRadius(double lat)
{
// http://en.wikipedia.org/wiki/Earth_radius
var An = WGS84_a * WGS84_a * Math.Cos(lat);
var Bn = WGS84_b * WGS84_b * Math.Sin(lat);
var Ad = WGS84_a * Math.Cos(lat);
var Bd = WGS84_b * Math.Sin(lat);
return Math.Sqrt((An*An + Bn*Bn) / (Ad*Ad + Bd*Bd));
}
```