PINE LIBRARY
lib_vsop87_jupiter
Library "lib_vsop87_jupiter"
get_helio_lon(t)
Computes Jupiter's heliocentric ecliptic longitude using VSOP87 theory.
Parameters:
t (float): (float) Julian millennia from J2000.0 (use core.get_julian_millennia(time)).
Returns: (float) Heliocentric ecliptic longitude in degrees, normalized to range [0, 360).
get_helio_lat(t)
Computes Jupiter's heliocentric ecliptic latitude using VSOP87 theory.
Parameters:
t (float): (float) Julian millennia from J2000.0 (use core.get_julian_millennia(time)).
Returns: (float) Heliocentric ecliptic latitude in radians, range approximately [-0.035, +0.035]. Note: Returns radians, not degrees.
get_helio_radius(t)
Computes Jupiter's heliocentric radius (distance from Sun) using VSOP87 theory.
Parameters:
t (float): (float) Julian millennia from J2000.0 (use core.get_julian_millennia(time)).
Returns: (float) Heliocentric radius in astronomical units (AU). Typical range is 4.95-5.46 AU.
get_geo_speed(t)
Computes Jupiter's geocentric longitude speed (rate of change over time).
Parameters:
t (float): (float) Julian millennia from J2000.0 (use core.get_julian_millennia(time)).
Returns: (float) Geocentric longitude speed in degrees per day. Negative values indicate retrograde motion (apparent backward movement).
get_geo_lon(t)
Computes Jupiter's geocentric ecliptic longitude (as seen from Earth).
Parameters:
t (float): (float) Julian millennia from J2000.0 (use core.get_julian_millennia(time)).
Returns: (float) Geocentric ecliptic longitude in degrees, normalized to range [0, 360).
get_geo_ecl_lat(t)
Computes Jupiter's geocentric ecliptic latitude (as seen from Earth).
Parameters:
t (float): (float) Julian millennia from J2000.0 (use core.get_julian_millennia(time)).
Returns: (float) Geocentric ecliptic latitude in degrees, range approximately [-2, +2].
get_geo_decl(t)
Computes Jupiter's geocentric equatorial declination (as seen from Earth).
Parameters:
t (float): (float) Julian millennia from J2000.0 (use core.get_julian_millennia(time)).
Returns: (float) Geocentric equatorial declination in degrees, range [-90, +90] where positive is north.
get_helio_lon(t)
Computes Jupiter's heliocentric ecliptic longitude using VSOP87 theory.
Parameters:
t (float): (float) Julian millennia from J2000.0 (use core.get_julian_millennia(time)).
Returns: (float) Heliocentric ecliptic longitude in degrees, normalized to range [0, 360).
get_helio_lat(t)
Computes Jupiter's heliocentric ecliptic latitude using VSOP87 theory.
Parameters:
t (float): (float) Julian millennia from J2000.0 (use core.get_julian_millennia(time)).
Returns: (float) Heliocentric ecliptic latitude in radians, range approximately [-0.035, +0.035]. Note: Returns radians, not degrees.
get_helio_radius(t)
Computes Jupiter's heliocentric radius (distance from Sun) using VSOP87 theory.
Parameters:
t (float): (float) Julian millennia from J2000.0 (use core.get_julian_millennia(time)).
Returns: (float) Heliocentric radius in astronomical units (AU). Typical range is 4.95-5.46 AU.
get_geo_speed(t)
Computes Jupiter's geocentric longitude speed (rate of change over time).
Parameters:
t (float): (float) Julian millennia from J2000.0 (use core.get_julian_millennia(time)).
Returns: (float) Geocentric longitude speed in degrees per day. Negative values indicate retrograde motion (apparent backward movement).
get_geo_lon(t)
Computes Jupiter's geocentric ecliptic longitude (as seen from Earth).
Parameters:
t (float): (float) Julian millennia from J2000.0 (use core.get_julian_millennia(time)).
Returns: (float) Geocentric ecliptic longitude in degrees, normalized to range [0, 360).
get_geo_ecl_lat(t)
Computes Jupiter's geocentric ecliptic latitude (as seen from Earth).
Parameters:
t (float): (float) Julian millennia from J2000.0 (use core.get_julian_millennia(time)).
Returns: (float) Geocentric ecliptic latitude in degrees, range approximately [-2, +2].
get_geo_decl(t)
Computes Jupiter's geocentric equatorial declination (as seen from Earth).
Parameters:
t (float): (float) Julian millennia from J2000.0 (use core.get_julian_millennia(time)).
Returns: (float) Geocentric equatorial declination in degrees, range [-90, +90] where positive is north.
Libreria Pine
Nello spirito di TradingView, l'autore ha pubblicato questo codice Pine come libreria open source affinché altri programmatori della nostra comunità possano riutilizzarlo. Complimenti all'autore! È possibile utilizzare questa libreria privatamente o in altre pubblicazioni open source, ma il riutilizzo di questo codice nelle pubblicazioni è soggetto al Regolamento.
© 2025 Blueprint Research LLC • Open Source on GitHub: github.com/BlueprintResearch
Declinazione di responsabilità
Le informazioni e le pubblicazioni non sono intese come, e non costituiscono, consulenza o raccomandazioni finanziarie, di investimento, di trading o di altro tipo fornite o approvate da TradingView. Per ulteriori informazioni, consultare i Termini di utilizzo.
Libreria Pine
Nello spirito di TradingView, l'autore ha pubblicato questo codice Pine come libreria open source affinché altri programmatori della nostra comunità possano riutilizzarlo. Complimenti all'autore! È possibile utilizzare questa libreria privatamente o in altre pubblicazioni open source, ma il riutilizzo di questo codice nelle pubblicazioni è soggetto al Regolamento.
© 2025 Blueprint Research LLC • Open Source on GitHub: github.com/BlueprintResearch
Declinazione di responsabilità
Le informazioni e le pubblicazioni non sono intese come, e non costituiscono, consulenza o raccomandazioni finanziarie, di investimento, di trading o di altro tipo fornite o approvate da TradingView. Per ulteriori informazioni, consultare i Termini di utilizzo.