C# (CSharp) AASharp AASMoon.EclipticLatitude Exemples

Exemple #1

        public static AASSelenographicMoonDetails CalculateSelenographicPositionOfSun(double JD, bool bHighPrecision)
        {
            double R       = AASEarth.RadiusVector(JD, bHighPrecision) * 149597970;
            double Delta   = AASMoon.RadiusVector(JD);
            double lambda0 = AASSun.ApparentEclipticLongitude(JD, bHighPrecision);
            double lambda  = AASMoon.EclipticLongitude(JD);
            double beta    = AASMoon.EclipticLatitude(JD);

            double lambdah = AASCoordinateTransformation.MapTo0To360Range(lambda0 + 180 + Delta / R * 57.296 * Math.Cos(AASCoordinateTransformation.DegreesToRadians(beta)) * Math.Sin(AASCoordinateTransformation.DegreesToRadians(lambda0 - lambda)));
            double betah   = Delta / R * beta;

            //What will be the return value
            AASSelenographicMoonDetails details = new AASSelenographicMoonDetails();

            //Calculate the optical libration
            double omega   = 0;
            double DeltaU  = 0;
            double sigma   = 0;
            double I       = 0;
            double rho     = 0;
            double ldash0  = 0;
            double bdash0  = 0;
            double ldash20 = 0;
            double bdash20 = 0;
            double epsilon = 0;

            CalculateOpticalLibration(JD, lambdah, betah, ref ldash0, ref bdash0, ref ldash20, ref bdash20, ref epsilon, ref omega, ref DeltaU, ref sigma, ref I, ref rho);

            details.l0 = ldash0 + ldash20;
            details.b0 = bdash0 + bdash20;
            details.c0 = AASCoordinateTransformation.MapTo0To360Range(450 - details.l0);
            return(details);
        }

Exemple #2

        public static AASPhysicalMoonDetails CalculateHelper(double JD, ref double Lambda, ref double Beta, ref double epsilon, ref AAS2DCoordinate Equatorial)
        {
            //What will be the return value
            AASPhysicalMoonDetails details = new AASPhysicalMoonDetails();

            //Calculate the initial quantities
            Lambda = AASMoon.EclipticLongitude(JD);
            Beta   = AASMoon.EclipticLatitude(JD);

            //Calculate the optical libration
            double omega  = 0;
            double DeltaU = 0;
            double sigma  = 0;
            double I      = 0;
            double rho    = 0;

            double ldash  = 0;
            double bdash  = 0;
            double ldash2 = 0;
            double bdash2 = 0;


            CalculateOpticalLibration(JD, Lambda, Beta, ref ldash, ref bdash, ref ldash2, ref bdash2, ref epsilon, ref omega, ref DeltaU, ref sigma, ref I, ref rho);
            details.ldash  = ldash;
            details.bdash  = bdash;
            details.ldash2 = ldash2;
            details.bdash2 = bdash2;

            double epsilonrad = AASCoordinateTransformation.DegreesToRadians(epsilon);

            //Calculate the total libration
            details.l = details.ldash + details.ldash2;
            details.b = details.bdash + details.bdash2;
            double b = AASCoordinateTransformation.DegreesToRadians(details.b);

            //Calculate the position angle
            double V     = omega + DeltaU + AASCoordinateTransformation.DegreesToRadians(sigma) / Math.Sin(I);
            double I_rho = I + AASCoordinateTransformation.DegreesToRadians(rho);
            double X     = Math.Sin(I_rho) * Math.Sin(V);
            double Y     = Math.Sin(I_rho) * Math.Cos(V) * Math.Cos(epsilonrad) - Math.Cos(I_rho) * Math.Sin(epsilonrad);
            double w     = Math.Atan2(X, Y);

            Equatorial = AASCoordinateTransformation.Ecliptic2Equatorial(Lambda, Beta, epsilon);
            double Alpha = AASCoordinateTransformation.HoursToRadians(Equatorial.X);

            details.P = AASCoordinateTransformation.RadiansToDegrees(Math.Asin(Math.Sqrt(X * X + Y * Y) * Math.Cos(Alpha - w) / (Math.Cos(b))));

            return(details);
        }