Searched refs:sinD (Results 1 – 7 of 7) sorted by relevance
165 sinD(-2.0000000000000e+00) = -9.0929742682568e-01166 sinD(-1.9000000001000e+00) = -9.4630008765509e-01167 sinD(-1.8000000002000e+00) = -9.7384763083275e-01168 sinD(-1.7000000003000e+00) = -9.9166481041382e-01169 sinD(-1.6000000004000e+00) = -9.9957360302983e-01170 sinD(-1.5000000005000e+00) = -9.9749498663942e-01171 sinD(-1.4000000006000e+00) = -9.8544973009044e-01172 sinD(-1.3000000007000e+00) = -9.6355818560444e-01173 sinD(-1.2000000008000e+00) = -9.3203908625711e-01174 sinD(-1.1000000009000e+00) = -8.9120736046967e-01[all …]
482 double sinD = Math.sin(equatorial.declination); in eclipticToHorizon() local487 double altitude = Math.asin(sinD*sinL + cosD*cosL*cosH); in eclipticToHorizon()488 double azimuth = Math.atan2(-cosD*cosL*sinH, sinD - sinL * Math.sin(altitude)); in eclipticToHorizon()
484 double sinD = Math.sin(equatorial.declination); in eclipticToHorizon() local489 double altitude = Math.asin(sinD*sinL + cosD*cosL*cosH); in eclipticToHorizon()490 double azimuth = Math.atan2(-cosD*cosL*sinH, sinD - sinL * Math.sin(altitude)); in eclipticToHorizon()
507 double sinD = ::sin(equatorial.declination); in eclipticToHorizon() local512 double altitude = asin(sinD*sinL + cosD*cosL*cosH); in eclipticToHorizon()513 double azimuth = atan2(-cosD*cosL*sinH, sinD - sinL * ::sin(altitude)); in eclipticToHorizon()