Anhang A - Die kleinen Monde |
Jupitermonde |
|
Von den heute bekannten 63 Jupitermonden liegen nur die vier Galileischen Monde in der Reichweite von Amateurteleskopen. Doch mit CCD-Kameras ändert sich das. Äußere Kleinmonde können wie schwache Asteroiden aufgesucht und aufgenommen werden. Immerhin sind die Monde VI - XII in Opposition heller als 20mag und daher durchaus in einem Bereich, der mit Amateur-CCD kein wirkliches Problem darstellt. |
Inhalt |
V - Amalthea
|
Der nur 270 x 166 x 160 km grosse Mond wurde 1892 von Barnard als 5. Jupitermond entdeckt. Er umkreist den Riesenplaneten in nur 181.000 km Abstand einmal in nur 12 Stunden. Amalthea wird in Opposition rund 14,5 mag hell und ihre Beobachtung ist durch die Nähe zu Jupiter extrem schwierig. Amateurbeobachtungen von Amalthea sind rar und unter 18" bis 20" Öffnung wird man wohl keine Chance auf eine Sichtung haben. CCD scheidet wegen der Nähe zu Jupiter auch so gut wie aus. Ein weiteres Problem ist das Fehlen von Vorausdaten, ausser, man verwendet den Astronomical Almanac. Plant man eine Beobachtung, ist es sinnvoll, mit dem JPL Horizons System für den geplanten Beobachtungszeitraum eine Ephemeride mit sehr kurzer Schrittweite zu rechnen. |
VI - Himalia
|
Der nur 186km grosse Mond wurde 1904 von Perrine als 6. Jupitermond entdeckt. Er umkreist den Riesenplaneten in 11,5 Mio. km Abstand einmal in 251 Tagen. Himalia wird in Opposition rund 15 mag hell. Erklärung zu den nachfolgenden Ephemeriden:
Column meaning:
TIME
Prior to 1962, times are UT1. Dates thereafter are UTC. Any 'b' symbol in
the 1st-column denotes a B.C. date. First-column blank (" ") denotes an A.D.
date. Calendar dates prior to 1582-Oct-15 are in the Julian calendar system.
Later calendar dates are in the Gregorian system.
The uniform Coordinate Time scale is used internally. Conversion between
CT and the selected non-uniform UT output scale has not been determined for
UTC times after the next July or January 1st. The last known leap-second
is used over any future interval.
NOTE: "n.a." in output means quantity "not available" at the print-time.
R.A._(ICRF/J2000.0)_DEC =
J2000.0 astrometric right ascension and declination of target center.
Corrected for light-time. Units: HMS (HH MM SS.ff) and DMS (DD MM SS.f)
R.A._(a-apparent)__DEC. =
Airless apparent right ascension and declination of the target center with
respect to the Earth true-equator and the meridian containing the Earth true
equinox of date. Corrected for light-time, gravitational deflection of light,
stellar aberration, precession & nutation.
Units: HMS (HH MM SS.ff) and DMS (DD MM SS.f)
dRA*cosD d(DEC)/dt =
The rate of change of target center apparent RA and DEC (airless).
d(RA)/dt is multiplied by the cosine of the declination.
Units: ARCSECONDS PER HOUR
APmag S-brt =
Target's approximate apparent visual magnitude & surface brightness. For
planets and satellites, values are available only for solar phase angles in the
range generally visible from Earth. This is to avoid extrapolation of models
beyond their valid (data-based) limits. Units: NONE & VISUAL MAGNITUDES PER
SQUARE ARCSECOND
Computations by ...
Solar System Dynamics Group, Horizons On-Line Ephemeris System
4800 Oak Grove Drive, Jet Propulsion Laboratory
Pasadena, CA 91109 USA
Information: http://ssd.jpl.nasa.gov/
Connect : telnet://ssd.jpl.nasa.gov:6775 (via browser)
telnet ssd.jpl.nasa.gov 6775 (via command-line)
Author : Jon.Giorgini@jpl.nasa.gov
*******************************************************************************************************
Aktuelle Ephemeride aus dem JPL Horizons System:
*******************************************************************************
Revised: Oct 18, 2006 Himalia / (Jupiter) 506
SATELLITE PHYSICAL PROPERTIES:
Radius (km) = 85 +- 10 Density (g cm^-3) =
Mass (10^20 kg ) = Geometric Albedo = 0.03
V(1,0) = +8.14
SATELLITE ORBITAL DATA:
Semi-major axis, a (km) = 11480 (10^3) Orbital period = 250.5662 d
Eccentricity, e = 0.163 Rotational period = 0.4 d
Inclination, i (deg) = 27.5 (inv pln) Local invar ref. pln= Sun
*******************************************************************************
*******************************************************************************
Ephemeris / WWW_USER Tue Sep 7 07:33:20 2010 Pasadena, USA / Horizons
*******************************************************************************
Target body name: Himalia (506) {source: JUP256}
Center body name: Earth (399) {source: DE405}
Center-site name: GEOCENTRIC
*******************************************************************************
Start time : A.D. 2010-Mar-01 00:00:00.0000 UT
Stop time : A.D. 2011-Mar-01 00:00:00.0000 UT
Step-size : 14400 minutes
*******************************************************************************
Target pole/equ : No model available
Target radii : 85.0 x 85.0 x 85.0 km {Equator, meridian, pole}
Center geodetic : 0.00000000,0.00000000,0.0000000 {E-lon(deg),Lat(deg),Alt(km)}
Center cylindric: 0.00000000,0.00000000,0.0000000 {E-lon(deg),Dxy(km),Dz(km)}
Center pole/equ : High-precision EOP model {East-longitude +}
Center radii : 6378.1 x 6378.1 x 6356.8 km {Equator, meridian, pole}
Target primary : Jupiter {source: DE405}
Interfering body: MOON (Req= 1737.400) km {source: DE405}
Deflecting body : Sun, EARTH {source: DE405}
Deflecting GMs : 1.3271E+11, 3.9860E+05 km^3/s^2
Atmos refraction: NO (AIRLESS)
RA format : HMS
Time format : CAL
EOP file : eop.100906.p101128
EOP coverage : DATA-BASED 1962-JAN-20 TO 2010-SEP-06. PREDICTS-> 2010-NOV-27
Units conversion: 1 AU= 149597870.691 km, c= 299792.458 km/s, 1 day= 86400.0 s
Table cut-offs 1: Elevation (-90.0deg=NO ),Airmass (>38.000=NO), Daylight (NO )
Table cut-offs 2: Solar Elongation ( 0.0,180.0=NO )
*******************************************************************************
Date__(UT)__HR:MN R.A._(ICRF/J2000.0)_DEC APmag S-brt
************************************************************
$$SOE
2010-Mar-01 00:00 22 48 41.16 -08 40 12.2 15.54 8.23
2010-Mar-11 00:00 22 57 50.83 -07 38 28.7 15.53 8.23
2010-Mar-21 00:00 23 06 44.45 -06 37 41.6 15.50 8.22
2010-Mar-31 00:00 23 15 18.03 -05 38 57.5 15.47 8.21
2010-Apr-10 00:00 23 23 28.79 -04 43 09.6 15.43 8.20
2010-Apr-20 00:00 23 31 13.84 -03 51 05.3 15.38 8.19
2010-Apr-30 00:00 23 38 29.77 -03 03 25.8 15.33 8.18
2010-May-10 00:00 23 45 13.51 -02 20 43.0 15.27 8.18
2010-May-20 00:00 23 51 20.81 -01 43 31.0 15.22 8.17
2010-May-30 00:00 23 56 46.98 -01 12 20.8 15.15 8.17
2010-Jun-09 00:00 00 01 27.48 -00 47 38.9 15.09 8.17
2010-Jun-19 00:00 00 05 16.76 -00 29 55.1 15.02 8.17
2010-Jun-29 00:00 00 08 09.87 -00 19 30.0 14.96 8.17
2010-Jul-09 00:00 00 10 02.69 -00 16 36.5 14.89 8.17
2010-Jul-19 00:00 00 10 51.51 -00 21 19.3 14.83 8.18
2010-Jul-29 00:00 00 10 35.58 -00 33 17.8 14.78 8.19
2010-Aug-08 00:00 00 09 16.63 -00 51 51.6 14.73 8.19
2010-Aug-18 00:00 00 06 59.60 -01 15 52.1 14.69 8.20
2010-Aug-28 00:00 00 03 54.56 -01 43 34.5 14.66 8.21
2010-Sep-07 00:00 00 00 14.59 -02 12 55.1 14.65 8.22
2010-Sep-17 00:00 23 56 15.98 -02 41 31.0 14.64 8.22
2010-Sep-27 00:00 23 52 17.13 -03 06 58.4 14.66 8.23
2010-Oct-07 00:00 23 48 34.71 -03 27 20.6 14.68 8.23
2010-Oct-17 00:00 23 45 23.76 -03 41 09.9 14.72 8.23
2010-Oct-27 00:00 23 42 55.80 -03 47 46.5 14.76 8.22
2010-Nov-06 00:00 23 41 18.00 -03 47 16.3 14.81 8.22
2010-Nov-16 00:00 23 40 35.81 -03 40 07.6 14.86 8.21
2010-Nov-26 00:00 23 40 52.14 -03 27 06.5 14.91 8.20
2010-Dec-06 00:00 23 42 08.40 -03 08 54.6 14.97 8.20
2010-Dec-16 00:00 23 44 25.42 -02 45 59.7 15.02 8.19
2010-Dec-26 00:00 23 47 41.60 -02 18 46.7 15.08 8.18
2011-Jan-05 00:00 23 51 54.15 -01 47 32.0 15.13 8.17
2011-Jan-15 00:00 23 56 59.32 -01 12 30.8 15.18 8.17
2011-Jan-25 00:00 00 02 51.58 -00 34 05.3 15.23 8.16
2011-Feb-04 00:00 00 09 25.59 +00 07 24.8 15.27 8.16
2011-Feb-14 00:00 00 16 35.65 +00 51 34.1 15.31 8.16
2011-Feb-24 00:00 00 24 15.63 +01 37 53.4 15.35 8.16
$$EOE
*******************************************************************************
Eine genaue Ephemeride kann man mit dem Natural Satellites Ephemeris Service der IAU (Minor Planet Center (MPC) berechnen. |
VII - Elara
|
Der nur 76km grosse Mond wurde 1905 von Perrine als 7. Jupitermond entdeckt. Er umkreist den Riesenplaneten in 11,7 Mio. km Abstand einmal in 260 Tagen. Elara wird in Opposition rund 17 mag hell. Aktuelle Ephemeride aus dem JPL Horizons System:
*******************************************************************************
Revised: Oct 18, 2006 Elara / (Jupiter) 507
SATELLITE PHYSICAL PROPERTIES:
Radius (km) = 40 +- 10 Density (g cm^-3) =
Mass (10^20 kg ) = Geometric Albedo = 0.03
V(1,0) = +10.07
SATELLITE ORBITAL DATA:
Semi-major axis, a (km) = 11737 (10^3) Orbital period = 259.6528 d
Eccentricity, e = 0.207 Rotational period = 0.5 d
Inclination, i (deg) = 28 Local invar ref. pln= Sun
*******************************************************************************
*******************************************************************************
Ephemeris / WWW_USER Tue Sep 7 07:33:56 2010 Pasadena, USA / Horizons
*******************************************************************************
Target body name: Elara (507) {source: JUP256}
Center body name: Earth (399) {source: DE405}
Center-site name: GEOCENTRIC
*******************************************************************************
Start time : A.D. 2010-Mar-01 00:00:00.0000 UT
Stop time : A.D. 2011-Mar-01 00:00:00.0000 UT
Step-size : 14400 minutes
*******************************************************************************
Target pole/equ : No model available
Target radii : 40.0 x 40.0 x 40.0 km {Equator, meridian, pole}
Center geodetic : 0.00000000,0.00000000,0.0000000 {E-lon(deg),Lat(deg),Alt(km)}
Center cylindric: 0.00000000,0.00000000,0.0000000 {E-lon(deg),Dxy(km),Dz(km)}
Center pole/equ : High-precision EOP model {East-longitude +}
Center radii : 6378.1 x 6378.1 x 6356.8 km {Equator, meridian, pole}
Target primary : Jupiter {source: DE405}
Interfering body: MOON (Req= 1737.400) km {source: DE405}
Deflecting body : Sun, EARTH {source: DE405}
Deflecting GMs : 1.3271E+11, 3.9860E+05 km^3/s^2
Atmos refraction: NO (AIRLESS)
RA format : HMS
Time format : CAL
EOP file : eop.100906.p101128
EOP coverage : DATA-BASED 1962-JAN-20 TO 2010-SEP-06. PREDICTS-> 2010-NOV-27
Units conversion: 1 AU= 149597870.691 km, c= 299792.458 km/s, 1 day= 86400.0 s
Table cut-offs 1: Elevation (-90.0deg=NO ),Airmass (>38.000=NO), Daylight (NO )
Table cut-offs 2: Solar Elongation ( 0.0,180.0=NO )
*******************************************************************************
Date__(UT)__HR:MN R.A._(ICRF/J2000.0)_DEC APmag S-brt
************************************************************
$$SOE
2010-Mar-01 00:00 22 47 25.73 -09 02 08.3 17.50 8.54
2010-Mar-11 00:00 22 57 06.19 -08 06 01.9 17.49 8.54
2010-Mar-21 00:00 23 06 35.43 -07 08 59.3 17.47 8.53
2010-Mar-31 00:00 23 15 48.29 -06 11 50.0 17.44 8.53
2010-Apr-10 00:00 23 24 40.61 -05 15 18.6 17.41 8.52
2010-Apr-20 00:00 23 33 07.92 -04 20 12.6 17.37 8.51
2010-Apr-30 00:00 23 41 05.27 -03 27 20.7 17.32 8.50
2010-May-10 00:00 23 48 28.08 -02 37 27.4 17.26 8.50
2010-May-20 00:00 23 55 10.71 -01 51 23.4 17.20 8.49
2010-May-30 00:00 00 01 07.05 -01 09 59.3 17.13 8.48
2010-Jun-09 00:00 00 06 11.04 -00 34 05.2 17.06 8.47
2010-Jun-19 00:00 00 10 15.50 -00 04 38.9 16.98 8.47
2010-Jun-29 00:00 00 13 13.62 +00 17 25.2 16.90 8.46
2010-Jul-09 00:00 00 14 59.32 +00 31 13.4 16.82 8.46
2010-Jul-19 00:00 00 15 27.03 +00 35 53.1 16.74 8.46
2010-Jul-29 00:00 00 14 34.63 +00 30 51.0 16.67 8.46
2010-Aug-08 00:00 00 12 23.72 +00 15 53.9 16.61 8.46
2010-Aug-18 00:00 00 09 01.04 -00 08 35.7 16.56 8.47
2010-Aug-28 00:00 00 04 41.04 -00 41 18.3 16.53 8.47
2010-Sep-07 00:00 23 59 43.79 -01 20 04.0 16.51 8.48
2010-Sep-17 00:00 23 54 34.17 -02 01 48.1 16.51 8.49
2010-Sep-27 00:00 23 49 38.78 -02 42 53.2 16.53 8.50
2010-Oct-07 00:00 23 45 20.07 -03 19 53.5 16.57 8.50
2010-Oct-17 00:00 23 41 55.45 -03 49 53.4 16.62 8.51
2010-Oct-27 00:00 23 39 35.63 -04 10 57.0 16.68 8.51
2010-Nov-06 00:00 23 38 25.01 -04 22 09.6 16.75 8.51
2010-Nov-16 00:00 23 38 25.11 -04 23 17.3 16.81 8.52
2010-Nov-26 00:00 23 39 34.18 -04 14 44.8 16.88 8.52
2010-Dec-06 00:00 23 41 48.66 -03 57 14.8 16.95 8.51
2010-Dec-16 00:00 23 45 04.63 -03 31 36.5 17.02 8.51
2010-Dec-26 00:00 23 49 16.51 -02 58 49.4 17.08 8.51
2011-Jan-05 00:00 23 54 18.64 -02 19 50.0 17.14 8.51
2011-Jan-15 00:00 00 00 05.46 -01 35 33.4 17.19 8.50
2011-Jan-25 00:00 00 06 30.61 -00 46 57.2 17.24 8.50
2011-Feb-04 00:00 00 13 28.54 +00 05 07.7 17.28 8.50
2011-Feb-14 00:00 00 20 53.78 +00 59 50.6 17.31 8.49
2011-Feb-24 00:00 00 28 40.64 +01 56 20.0 17.34 8.49
$$EOE
*******************************************************************************
Eine genaue Ephemeride kann man mit dem Natural Satellites Ephemeris Service der IAU (Minor Planet Center (MPC) berechnen. |
VIII - Pasiphae
|
Der nur 50km grosse Mond wurde 1908 von Melotte als 8. Jupitermond entdeckt. Er umkreist den Riesenplaneten in 23,5 Mio. km Abstand retrograd einmal in 735 Tagen. Pasiphae wird in Opposition rund 17 mag hell. Aktuelle Ephemeride aus dem JPL Horizons System:
*******************************************************************************
Revised: Oct 18, 2006 Pasiphae / (Jupiter) 508
SATELLITE PHYSICAL PROPERTIES:
Radius (km) = 18 Density (g cm^-3) =
Mass (10^20 kg ) = Geometric Albedo =
V(1,0) = +10.33
SATELLITE ORBITAL DATA:
Semi-major axis, a (km) = 23500 (10^3) Orbital period = 735 d (retro)
Eccentricity, e = 0.378 Rotational period =
Inclination, i (deg) = 148 Local invar ref. pln= Sun
*******************************************************************************
*******************************************************************************
Ephemeris / WWW_USER Tue Sep 7 07:34:28 2010 Pasadena, USA / Horizons
*******************************************************************************
Target body name: Pasiphae (508) {source: JUP256}
Center body name: Earth (399) {source: DE405}
Center-site name: GEOCENTRIC
*******************************************************************************
Start time : A.D. 2010-Mar-01 00:00:00.0000 UT
Stop time : A.D. 2011-Mar-01 00:00:00.0000 UT
Step-size : 14400 minutes
*******************************************************************************
Target pole/equ : No model available
Target radii : 18.0 x 18.0 x 18.0 km {Equator, meridian, pole}
Center geodetic : 0.00000000,0.00000000,0.0000000 {E-lon(deg),Lat(deg),Alt(km)}
Center cylindric: 0.00000000,0.00000000,0.0000000 {E-lon(deg),Dxy(km),Dz(km)}
Center pole/equ : High-precision EOP model {East-longitude +}
Center radii : 6378.1 x 6378.1 x 6356.8 km {Equator, meridian, pole}
Target primary : Jupiter {source: DE405}
Interfering body: MOON (Req= 1737.400) km {source: DE405}
Deflecting body : Sun, EARTH {source: DE405}
Deflecting GMs : 1.3271E+11, 3.9860E+05 km^3/s^2
Atmos refraction: NO (AIRLESS)
RA format : HMS
Time format : CAL
EOP file : eop.100906.p101128
EOP coverage : DATA-BASED 1962-JAN-20 TO 2010-SEP-06. PREDICTS-> 2010-NOV-27
Units conversion: 1 AU= 149597870.691 km, c= 299792.458 km/s, 1 day= 86400.0 s
Table cut-offs 1: Elevation (-90.0deg=NO ),Airmass (>38.000=NO), Daylight (NO )
Table cut-offs 2: Solar Elongation ( 0.0,180.0=NO )
*******************************************************************************
Date__(UT)__HR:MN R.A._(ICRF/J2000.0)_DEC APmag S-brt
************************************************************
$$SOE
2010-Mar-01 00:00 22 39 29.17 -08 28 58.7 17.74 7.06
2010-Mar-11 00:00 22 48 30.03 -07 35 57.1 17.72 7.05
2010-Mar-21 00:00 22 57 27.04 -06 42 40.9 17.70 7.04
2010-Mar-31 00:00 23 06 15.62 -05 49 48.4 17.66 7.03
2010-Apr-10 00:00 23 14 51.90 -04 57 53.8 17.63 7.03
2010-Apr-20 00:00 23 23 11.59 -04 07 36.6 17.58 7.02
2010-Apr-30 00:00 23 31 10.01 -03 19 38.3 17.53 7.01
2010-May-10 00:00 23 38 42.91 -02 34 37.3 17.47 7.00
2010-May-20 00:00 23 45 45.11 -01 53 18.9 17.41 6.99
2010-May-30 00:00 23 52 11.17 -01 16 27.7 17.34 6.99
2010-Jun-09 00:00 23 57 55.85 -00 44 46.7 17.27 6.98
2010-Jun-19 00:00 00 02 52.81 -00 19 04.8 17.19 6.98
2010-Jun-29 00:00 00 06 56.15 -00 00 04.7 17.11 6.97
2010-Jul-09 00:00 00 10 00.36 +00 11 34.3 17.04 6.97
2010-Jul-19 00:00 00 11 59.86 +00 15 16.2 16.96 6.97
2010-Jul-29 00:00 00 12 51.42 +00 10 45.0 16.89 6.97
2010-Aug-08 00:00 00 12 33.73 -00 01 58.9 16.83 6.97
2010-Aug-18 00:00 00 11 08.30 -00 22 28.7 16.78 6.97
2010-Aug-28 00:00 00 08 41.85 -00 49 36.8 16.74 6.98
2010-Sep-07 00:00 00 05 24.80 -01 21 45.5 16.71 6.98
2010-Sep-17 00:00 00 01 32.21 -01 56 40.7 16.71 6.99
2010-Sep-27 00:00 23 57 23.31 -02 31 43.7 16.73 6.99
2010-Oct-07 00:00 23 53 17.87 -03 04 19.5 16.76 7.00
2010-Oct-17 00:00 23 49 36.00 -03 32 01.9 16.81 7.00
2010-Oct-27 00:00 23 46 35.27 -03 52 58.0 16.87 7.01
2010-Nov-06 00:00 23 44 28.53 -04 05 57.3 16.95 7.02
2010-Nov-16 00:00 23 43 25.08 -04 10 20.3 17.03 7.02
2010-Nov-26 00:00 23 43 29.10 -04 06 05.9 17.12 7.03
2010-Dec-06 00:00 23 44 40.83 -03 53 35.2 17.20 7.04
2010-Dec-16 00:00 23 46 58.41 -03 33 20.7 17.29 7.04
2010-Dec-26 00:00 23 50 17.10 -03 06 10.0 17.37 7.05
2011-Jan-05 00:00 23 54 31.35 -02 32 50.2 17.45 7.06
2011-Jan-15 00:00 23 59 35.34 -01 54 08.9 17.52 7.06
2011-Jan-25 00:00 00 05 22.33 -01 10 57.4 17.59 7.07
2011-Feb-04 00:00 00 11 46.38 -00 23 59.7 17.64 7.07
2011-Feb-14 00:00 00 18 41.68 +00 25 59.6 17.69 7.08
2011-Feb-24 00:00 00 26 02.31 +01 18 16.8 17.73 7.08
$$EOE
*******************************************************************************
Eine genaue Ephemeride kann man mit dem Natural Satellites Ephemeris Service der IAU (Minor Planet Center (MPC) berechnen. |
IX - Sinope
|
Der nur 36km grosse Mond wurde 1914 von Nicholson als 9. Jupitermond entdeckt. Er umkreist den Riesenplaneten in 23,7 Mio. km Abstand retrograd einmal in 758 Tagen. Sinope wird in Opposition rund 18,5 mag hell. Aktuelle Ephemeride aus dem JPL Horizons System:
*******************************************************************************
Revised: Oct 18, 2006 Sinope / (Jupiter) 509
SATELLITE PHYSICAL PROPERTIES:
Radius (km) = 14 Density (g cm^-3) =
Mass (10^20 kg ) = Geometric Albedo =
V(1,0) = +11.6
SATELLITE ORBITAL DATA:
Semi-major axis, a (km) = 23700 (10^3) Orbital period = 758 d (retro)
Eccentricity, e = 0.275 Rotational period =
Inclination, i (deg) = 153 Local invar ref. pln= Sun
*******************************************************************************
*******************************************************************************
Ephemeris / WWW_USER Tue Sep 7 07:34:54 2010 Pasadena, USA / Horizons
*******************************************************************************
Target body name: Sinope (509) {source: JUP256}
Center body name: Earth (399) {source: DE405}
Center-site name: GEOCENTRIC
*******************************************************************************
Start time : A.D. 2010-Mar-01 00:00:00.0000 UT
Stop time : A.D. 2011-Mar-01 00:00:00.0000 UT
Step-size : 14400 minutes
*******************************************************************************
Target pole/equ : No model available
Target radii : 14.0 x 14.0 x 14.0 km {Equator, meridian, pole}
Center geodetic : 0.00000000,0.00000000,0.0000000 {E-lon(deg),Lat(deg),Alt(km)}
Center cylindric: 0.00000000,0.00000000,0.0000000 {E-lon(deg),Dxy(km),Dz(km)}
Center pole/equ : High-precision EOP model {East-longitude +}
Center radii : 6378.1 x 6378.1 x 6356.8 km {Equator, meridian, pole}
Target primary : Jupiter {source: DE405}
Interfering body: MOON (Req= 1737.400) km {source: DE405}
Deflecting body : Sun, EARTH {source: DE405}
Deflecting GMs : 1.3271E+11, 3.9860E+05 km^3/s^2
Atmos refraction: NO (AIRLESS)
RA format : HMS
Time format : CAL
EOP file : eop.100906.p101128
EOP coverage : DATA-BASED 1962-JAN-20 TO 2010-SEP-06. PREDICTS-> 2010-NOV-27
Units conversion: 1 AU= 149597870.691 km, c= 299792.458 km/s, 1 day= 86400.0 s
Table cut-offs 1: Elevation (-90.0deg=NO ),Airmass (>38.000=NO), Daylight (NO )
Table cut-offs 2: Solar Elongation ( 0.0,180.0=NO )
*******************************************************************************
Date__(UT)__HR:MN R.A._(ICRF/J2000.0)_DEC APmag S-brt
************************************************************
$$SOE
2010-Mar-01 00:00 22 45 08.61 -08 49 28.2 18.83 7.69
2010-Mar-11 00:00 22 54 55.16 -07 53 32.3 18.83 7.68
2010-Mar-21 00:00 23 04 35.54 -06 57 28.3 18.81 7.68
2010-Mar-31 00:00 23 14 04.82 -06 01 58.1 18.79 7.68
2010-Apr-10 00:00 23 23 18.83 -05 07 39.2 18.76 7.67
2010-Apr-20 00:00 23 32 12.95 -04 15 13.4 18.73 7.67
2010-Apr-30 00:00 23 40 42.17 -03 25 23.9 18.69 7.67
2010-May-10 00:00 23 48 41.91 -02 38 49.5 18.65 7.67
2010-May-20 00:00 23 56 06.70 -01 56 14.8 18.60 7.67
2010-May-30 00:00 00 02 50.72 -01 18 22.5 18.54 7.67
2010-Jun-09 00:00 00 08 48.43 -00 45 52.4 18.48 7.67
2010-Jun-19 00:00 00 13 53.18 -00 19 28.9 18.42 7.67
2010-Jun-29 00:00 00 17 58.74 +00 00 10.5 18.36 7.68
2010-Jul-09 00:00 00 20 59.35 +00 12 32.6 18.30 7.68
2010-Jul-19 00:00 00 22 49.22 +00 17 07.6 18.23 7.68
2010-Jul-29 00:00 00 23 24.97 +00 13 44.4 18.17 7.69
2010-Aug-08 00:00 00 22 45.37 +00 02 26.6 18.12 7.69
2010-Aug-18 00:00 00 20 52.17 -00 16 18.9 18.07 7.70
2010-Aug-28 00:00 00 17 52.67 -00 41 28.4 18.03 7.71
2010-Sep-07 00:00 00 13 58.35 -01 11 31.8 18.01 7.71
2010-Sep-17 00:00 00 09 25.72 -01 44 25.6 18.00 7.72
2010-Sep-27 00:00 00 04 35.84 -02 17 42.4 18.01 7.73
2010-Oct-07 00:00 23 59 50.53 -02 48 56.3 18.04 7.73
2010-Oct-17 00:00 23 55 31.79 -03 15 46.1 18.08 7.73
2010-Oct-27 00:00 23 51 58.74 -03 36 19.5 18.14 7.74
2010-Nov-06 00:00 23 49 25.17 -03 49 22.3 18.21 7.74
2010-Nov-16 00:00 23 48 00.75 -03 54 08.9 18.28 7.74
2010-Nov-26 00:00 23 47 49.47 -03 50 31.5 18.36 7.75
2010-Dec-06 00:00 23 48 51.00 -03 38 45.5 18.44 7.75
2010-Dec-16 00:00 23 51 02.67 -03 19 19.1 18.53 7.76
2010-Dec-26 00:00 23 54 18.84 -02 52 56.9 18.61 7.76
2011-Jan-05 00:00 23 58 33.04 -02 20 25.0 18.68 7.77
2011-Jan-15 00:00 00 03 38.62 -01 42 31.0 18.75 7.77
2011-Jan-25 00:00 00 09 28.08 -01 00 06.7 18.82 7.78
2011-Feb-04 00:00 00 15 54.83 -00 13 57.4 18.88 7.78
2011-Feb-14 00:00 00 22 52.57 +00 35 11.3 18.93 7.79
2011-Feb-24 00:00 00 30 14.95 +01 26 34.6 18.97 7.79
$$EOE
*******************************************************************************
Diese Ephemeride ist genähert, die Positionen können Eine genaue Ephemeride kann man mit dem Natural Satellites Ephemeris Service der IAU (Minor Planet Center (MPC) berechnen. |
X - Lysithea
|
Der nur 76km grosse Mond wurde 1938 von Nicholson als 10. Jupitermond entdeckt. Er umkreist den Riesenplaneten in 11,7 Mio. km Abstand einmal in 259 Tagen. Lysithea wird in Opposition rund 18,5 - 19 mag hell. Aktuelle Ephemeride aus dem JPL Horizons System:
*******************************************************************************
Revised: Oct 18, 2006 Lysithea / (Jupiter) 510
SATELLITE PHYSICAL PROPERTIES:
Radius (km) = 12 Density (g cm^-3) =
Mass (10^20 kg ) = Geometric Albedo =
V(1,0) = +11.7
SATELLITE ORBITAL DATA:
Semi-major axis, a (km) = 11720 (10^3) Orbital period = 259.22 d
Eccentricity, e = 0.107 Rotational period =
Inclination, i (deg) = 29 Local invar ref. pln= Sun
*******************************************************************************
*******************************************************************************
Ephemeris / WWW_USER Tue Sep 7 07:35:20 2010 Pasadena, USA / Horizons
*******************************************************************************
Target body name: Lysithea (510) {source: JUP256}
Center body name: Earth (399) {source: DE405}
Center-site name: GEOCENTRIC
*******************************************************************************
Start time : A.D. 2010-Mar-01 00:00:00.0000 UT
Stop time : A.D. 2011-Mar-01 00:00:00.0000 UT
Step-size : 14400 minutes
*******************************************************************************
Target pole/equ : No model available
Target radii : 12.0 x 12.0 x 12.0 km {Equator, meridian, pole}
Center geodetic : 0.00000000,0.00000000,0.0000000 {E-lon(deg),Lat(deg),Alt(km)}
Center cylindric: 0.00000000,0.00000000,0.0000000 {E-lon(deg),Dxy(km),Dz(km)}
Center pole/equ : High-precision EOP model {East-longitude +}
Center radii : 6378.1 x 6378.1 x 6356.8 km {Equator, meridian, pole}
Target primary : Jupiter {source: DE405}
Interfering body: MOON (Req= 1737.400) km {source: DE405}
Deflecting body : Sun, EARTH {source: DE405}
Deflecting GMs : 1.3271E+11, 3.9860E+05 km^3/s^2
Atmos refraction: NO (AIRLESS)
RA format : HMS
Time format : CAL
EOP file : eop.100906.p101128
EOP coverage : DATA-BASED 1962-JAN-20 TO 2010-SEP-06. PREDICTS-> 2010-NOV-27
Units conversion: 1 AU= 149597870.691 km, c= 299792.458 km/s, 1 day= 86400.0 s
Table cut-offs 1: Elevation (-90.0deg=NO ),Airmass (>38.000=NO), Daylight (NO )
Table cut-offs 2: Solar Elongation ( 0.0,180.0=NO )
*******************************************************************************
Date__(UT)__HR:MN R.A._(ICRF/J2000.0)_DEC APmag S-brt
************************************************************
$$SOE
2010-Mar-01 00:00 22 46 33.36 -08 39 51.0 19.01 7.49
2010-Mar-11 00:00 22 55 12.16 -07 53 07.5 19.01 7.49
2010-Mar-21 00:00 23 03 45.75 -07 06 32.8 19.00 7.49
2010-Mar-31 00:00 23 12 09.56 -06 20 26.4 18.98 7.49
2010-Apr-10 00:00 23 20 19.61 -05 35 07.0 18.96 7.49
2010-Apr-20 00:00 23 28 11.47 -04 51 00.4 18.93 7.50
2010-Apr-30 00:00 23 35 40.29 -04 08 35.3 18.90 7.50
2010-May-10 00:00 23 42 41.81 -03 28 17.3 18.87 7.50
2010-May-20 00:00 23 49 10.98 -02 50 37.7 18.82 7.51
2010-May-30 00:00 23 55 02.69 -02 16 05.8 18.78 7.51
2010-Jun-09 00:00 00 00 12.29 -01 45 07.6 18.73 7.52
2010-Jun-19 00:00 00 04 34.35 -01 18 13.6 18.67 7.52
2010-Jun-29 00:00 00 08 04.06 -00 55 47.9 18.62 7.53
2010-Jul-09 00:00 00 10 37.22 -00 38 13.7 18.56 7.53
2010-Jul-19 00:00 00 12 09.62 -00 25 56.2 18.50 7.54
2010-Jul-29 00:00 00 12 39.02 -00 19 12.0 18.44 7.54
2010-Aug-08 00:00 00 12 04.54 -00 18 18.9 18.38 7.54
2010-Aug-18 00:00 00 10 27.01 -00 23 31.6 18.32 7.54
2010-Aug-28 00:00 00 07 51.10 -00 34 50.6 18.27 7.54
2010-Sep-07 00:00 00 04 24.01 -00 52 08.3 18.23 7.53
2010-Sep-17 00:00 00 00 17.09 -01 14 49.9 18.20 7.53
2010-Sep-27 00:00 23 55 46.47 -01 41 42.9 18.18 7.52
2010-Oct-07 00:00 23 51 10.73 -02 11 03.9 18.18 7.51
2010-Oct-17 00:00 23 46 51.27 -02 40 30.2 18.19 7.50
2010-Oct-27 00:00 23 43 09.09 -03 07 27.5 18.22 7.49
2010-Nov-06 00:00 23 40 21.54 -03 29 33.3 18.26 7.48
2010-Nov-16 00:00 23 38 42.30 -03 44 46.2 18.32 7.47
2010-Nov-26 00:00 23 38 18.82 -03 51 50.0 18.38 7.47
2010-Dec-06 00:00 23 39 13.21 -03 50 06.9 18.45 7.46
2010-Dec-16 00:00 23 41 24.11 -03 39 28.8 18.53 7.46
2010-Dec-26 00:00 23 44 46.28 -03 20 19.5 18.60 7.46
2011-Jan-05 00:00 23 49 13.08 -02 53 14.8 18.67 7.47
2011-Jan-15 00:00 23 54 37.36 -02 19 00.0 18.74 7.47
2011-Jan-25 00:00 00 00 51.01 -01 38 29.0 18.81 7.48
2011-Feb-04 00:00 00 07 46.89 -00 52 31.4 18.87 7.49
2011-Feb-14 00:00 00 15 18.24 -00 01 58.4 18.92 7.49
2011-Feb-24 00:00 00 23 18.43 +00 52 19.2 18.97 7.50
$$EOE
*******************************************************************************
Eine genaue Ephemeride kann man mit dem Natural Satellites Ephemeris Service der IAU (Minor Planet Center (MPC) berechnen. |
XI - Carme
|
Der nur 40km grosse Mond wurde 1938 von Nicholson als 11. Jupitermond entdeckt. Er umkreist den Riesenplaneten in 22,6 Mio. km Abstand retrograd einmal in 692 Tagen. Carme wird in Opposition rund 18 mag hell. Aktuelle Ephemeride aus dem JPL Horizons System:
*******************************************************************************
Revised: Oct 18, 2006 Carme / (Jupiter) 511
SATELLITE PHYSICAL PROPERTIES:
Radius (km) = 15 Density (g cm^-3) =
Mass (10^20 kg ) = Geometric Albedo =
V(1,0) = +11.3
SATELLITE ORBITAL DATA:
Semi-major axis, a (km) = 22600 (10^3) Orbital period = 692 d (retro)
Eccentricity, e = 0.207 Rotational period =
Inclination, i (deg) = 163 Local invar ref. pln= Sun
*******************************************************************************
*******************************************************************************
Ephemeris / WWW_USER Tue Sep 7 07:35:42 2010 Pasadena, USA / Horizons
*******************************************************************************
Target body name: Carme (511) {source: JUP256}
Center body name: Earth (399) {source: DE405}
Center-site name: GEOCENTRIC
*******************************************************************************
Start time : A.D. 2010-Mar-01 00:00:00.0000 UT
Stop time : A.D. 2011-Mar-01 00:00:00.0000 UT
Step-size : 14400 minutes
*******************************************************************************
Target pole/equ : No model available
Target radii : 15.0 x 15.0 x 15.0 km {Equator, meridian, pole}
Center geodetic : 0.00000000,0.00000000,0.0000000 {E-lon(deg),Lat(deg),Alt(km)}
Center cylindric: 0.00000000,0.00000000,0.0000000 {E-lon(deg),Dxy(km),Dz(km)}
Center pole/equ : High-precision EOP model {East-longitude +}
Center radii : 6378.1 x 6378.1 x 6356.8 km {Equator, meridian, pole}
Target primary : Jupiter {source: DE405}
Interfering body: MOON (Req= 1737.400) km {source: DE405}
Deflecting body : Sun, EARTH {source: DE405}
Deflecting GMs : 1.3271E+11, 3.9860E+05 km^3/s^2
Atmos refraction: NO (AIRLESS)
RA format : HMS
Time format : CAL
EOP file : eop.100906.p101128
EOP coverage : DATA-BASED 1962-JAN-20 TO 2010-SEP-06. PREDICTS-> 2010-NOV-27
Units conversion: 1 AU= 149597870.691 km, c= 299792.458 km/s, 1 day= 86400.0 s
Table cut-offs 1: Elevation (-90.0deg=NO ),Airmass (>38.000=NO), Daylight (NO )
Table cut-offs 2: Solar Elongation ( 0.0,180.0=NO )
*******************************************************************************
Date__(UT)__HR:MN R.A._(ICRF/J2000.0)_DEC APmag S-brt
************************************************************
$$SOE
2010-Mar-01 00:00 22 41 14.51 -09 43 20.5 18.61 7.57
2010-Mar-11 00:00 22 50 42.39 -08 46 01.8 18.59 7.57
2010-Mar-21 00:00 23 00 05.43 -07 48 21.1 18.57 7.56
2010-Mar-31 00:00 23 09 18.87 -06 50 56.4 18.54 7.56
2010-Apr-10 00:00 23 18 18.66 -05 54 21.6 18.51 7.55
2010-Apr-20 00:00 23 27 00.30 -04 59 15.3 18.47 7.55
2010-Apr-30 00:00 23 35 18.79 -04 06 17.9 18.42 7.54
2010-May-10 00:00 23 43 09.58 -03 16 05.9 18.37 7.54
2010-May-20 00:00 23 50 27.12 -02 29 22.7 18.31 7.53
2010-May-30 00:00 23 57 05.49 -01 46 49.9 18.25 7.53
2010-Jun-09 00:00 00 02 58.96 -01 09 07.7 18.19 7.53
2010-Jun-19 00:00 00 08 00.64 -00 37 01.6 18.12 7.53
2010-Jun-29 00:00 00 12 04.02 -00 11 11.4 18.06 7.53
2010-Jul-09 00:00 00 15 03.03 +00 07 46.0 17.99 7.53
2010-Jul-19 00:00 00 16 51.57 +00 19 15.0 17.93 7.54
2010-Jul-29 00:00 00 17 26.03 +00 22 57.2 17.87 7.54
2010-Aug-08 00:00 00 16 45.00 +00 18 46.2 17.82 7.55
2010-Aug-18 00:00 00 14 50.22 +00 06 56.6 17.77 7.56
2010-Aug-28 00:00 00 11 49.08 -00 11 42.4 17.75 7.57
2010-Sep-07 00:00 00 07 53.20 -00 35 56.7 17.73 7.57
2010-Sep-17 00:00 00 03 19.22 -01 03 59.1 17.73 7.58
2010-Sep-27 00:00 23 58 28.17 -01 33 36.7 17.75 7.59
2010-Oct-07 00:00 23 53 41.63 -02 02 34.5 17.78 7.60
2010-Oct-17 00:00 23 49 21.24 -02 28 36.8 17.84 7.61
2010-Oct-27 00:00 23 45 45.63 -02 49 50.4 17.90 7.61
2010-Nov-06 00:00 23 43 08.24 -03 04 54.4 17.97 7.62
2010-Nov-16 00:00 23 41 38.54 -03 12 52.3 18.05 7.62
2010-Nov-26 00:00 23 41 20.62 -03 13 22.1 18.13 7.63
2010-Dec-06 00:00 23 42 14.47 -03 06 24.4 18.21 7.63
2010-Dec-16 00:00 23 44 17.91 -02 52 13.0 18.29 7.63
2010-Dec-26 00:00 23 47 25.90 -02 31 19.4 18.37 7.64
2011-Jan-05 00:00 23 51 32.58 -02 04 18.7 18.44 7.64
2011-Jan-15 00:00 23 56 31.89 -01 31 49.3 18.51 7.64
2011-Jan-25 00:00 00 02 16.84 -00 54 36.3 18.56 7.65
2011-Feb-04 00:00 00 08 41.29 -00 13 19.9 18.61 7.65
2011-Feb-14 00:00 00 15 39.27 +00 31 17.7 18.65 7.65
2011-Feb-24 00:00 00 23 04.70 +01 18 33.3 18.68 7.65
$$EOE
*******************************************************************************
Eine genaue Ephemeride kann man mit dem Natural Satellites Ephemeris Service der IAU (Minor Planet Center (MPC) berechnen. |
XII - Ananke
|
Der nur 30km grosse Mond wurde 1951 von Nicholson als 12. Jupitermond entdeckt. Er umkreist den Riesenplaneten in 21,2 Mio. km Abstand retrograd einmal in 631 Tagen. Ananke wird in Opposition rund 19 mag hell. Aktuelle Ephemeride aus dem JPL Horizons System:
*******************************************************************************
Revised: Oct 18, 2006 Ananke / (Jupiter) 512
SATELLITE PHYSICAL PROPERTIES:
Radius (km) = 10 Density (g cm^-3) =
Mass (10^20 kg ) = Geometric Albedo =
V(1,0) = +12.2
SATELLITE ORBITAL DATA:
Semi-major axis, a (km) = 21200 (10^3) Orbital period = 631 d (retro)
Eccentricity, e = 0.169 Rotational period =
Inclination, i (deg) = 147 Local invar ref. pln= Sun
*******************************************************************************
*******************************************************************************
Ephemeris / WWW_USER Tue Sep 7 07:36:07 2010 Pasadena, USA / Horizons
*******************************************************************************
Target body name: Ananke (512) {source: JUP256}
Center body name: Earth (399) {source: DE405}
Center-site name: GEOCENTRIC
*******************************************************************************
Start time : A.D. 2010-Mar-01 00:00:00.0000 UT
Stop time : A.D. 2011-Mar-01 00:00:00.0000 UT
Step-size : 14400 minutes
*******************************************************************************
Target pole/equ : No model available
Target radii : 10.0 x 10.0 x 10.0 km {Equator, meridian, pole}
Center geodetic : 0.00000000,0.00000000,0.0000000 {E-lon(deg),Lat(deg),Alt(km)}
Center cylindric: 0.00000000,0.00000000,0.0000000 {E-lon(deg),Dxy(km),Dz(km)}
Center pole/equ : High-precision EOP model {East-longitude +}
Center radii : 6378.1 x 6378.1 x 6356.8 km {Equator, meridian, pole}
Target primary : Jupiter {source: DE405}
Interfering body: MOON (Req= 1737.400) km {source: DE405}
Deflecting body : Sun, EARTH {source: DE405}
Deflecting GMs : 1.3271E+11, 3.9860E+05 km^3/s^2
Atmos refraction: NO (AIRLESS)
RA format : HMS
Time format : CAL
EOP file : eop.100906.p101128
EOP coverage : DATA-BASED 1962-JAN-20 TO 2010-SEP-06. PREDICTS-> 2010-NOV-27
Units conversion: 1 AU= 149597870.691 km, c= 299792.458 km/s, 1 day= 86400.0 s
Table cut-offs 1: Elevation (-90.0deg=NO ),Airmass (>38.000=NO), Daylight (NO )
Table cut-offs 2: Solar Elongation ( 0.0,180.0=NO )
*******************************************************************************
Date__(UT)__HR:MN R.A._(ICRF/J2000.0)_DEC APmag S-brt
************************************************************
$$SOE
2010-Mar-01 00:00 22 53 05.36 -08 34 00.8 19.55 7.62
2010-Mar-11 00:00 23 02 04.45 -07 35 29.9 19.56 7.62
2010-Mar-21 00:00 23 10 53.44 -06 37 23.0 19.55 7.63
2010-Mar-31 00:00 23 19 27.59 -05 40 18.2 19.55 7.63
2010-Apr-10 00:00 23 27 42.83 -04 44 48.8 19.53 7.63
2010-Apr-20 00:00 23 35 34.72 -03 51 32.0 19.51 7.64
2010-Apr-30 00:00 23 42 58.33 -03 01 06.4 19.48 7.64
2010-May-10 00:00 23 49 49.20 -02 14 06.4 19.44 7.64
2010-May-20 00:00 23 56 01.97 -01 31 12.5 19.40 7.64
2010-May-30 00:00 00 01 31.01 -00 53 04.4 19.35 7.64
2010-Jun-09 00:00 00 06 10.94 -00 20 19.6 19.29 7.65
2010-Jun-19 00:00 00 09 55.46 +00 06 18.4 19.23 7.65
2010-Jun-29 00:00 00 12 38.78 +00 26 10.9 19.17 7.65
2010-Jul-09 00:00 00 14 15.75 +00 38 41.5 19.10 7.65
2010-Jul-19 00:00 00 14 41.52 +00 43 14.8 19.03 7.65
2010-Jul-29 00:00 00 13 53.87 +00 39 31.6 18.96 7.66
2010-Aug-08 00:00 00 11 53.12 +00 27 25.3 18.90 7.66
2010-Aug-18 00:00 00 08 42.97 +00 07 11.5 18.84 7.66
2010-Aug-28 00:00 00 04 32.92 -00 20 17.3 18.79 7.65
2010-Sep-07 00:00 23 59 36.79 -00 53 39.3 18.75 7.65
2010-Sep-17 00:00 23 54 13.40 -01 30 54.8 18.73 7.65
2010-Sep-27 00:00 23 48 45.73 -02 09 33.3 18.72 7.64
2010-Oct-07 00:00 23 43 36.86 -02 46 58.6 18.72 7.63
2010-Oct-17 00:00 23 39 09.42 -03 20 32.6 18.74 7.62
2010-Oct-27 00:00 23 35 42.24 -03 48 01.9 18.77 7.61
2010-Nov-06 00:00 23 33 28.30 -04 07 49.7 18.81 7.60
2010-Nov-16 00:00 23 32 35.95 -04 18 50.0 18.86 7.59
2010-Nov-26 00:00 23 33 07.63 -04 20 37.8 18.92 7.58
2010-Dec-06 00:00 23 35 01.40 -04 13 16.3 18.98 7.57
2010-Dec-16 00:00 23 38 13.06 -03 57 06.3 19.03 7.57
2010-Dec-26 00:00 23 42 35.49 -03 32 50.1 19.09 7.56
2011-Jan-05 00:00 23 48 00.99 -03 01 14.5 19.15 7.56
2011-Jan-15 00:00 23 54 21.83 -02 23 11.3 19.20 7.55
2011-Jan-25 00:00 00 01 29.58 -01 39 38.7 19.25 7.55
2011-Feb-04 00:00 00 09 16.92 -00 51 29.7 19.30 7.55
2011-Feb-14 00:00 00 17 36.93 +00 00 21.5 19.34 7.55
2011-Feb-24 00:00 00 26 22.76 +00 55 00.3 19.37 7.55
$$EOE
*******************************************************************************
Eine genaue Ephemeride kann man mit dem Natural Satellites Ephemeris Service der IAU (Minor Planet Center (MPC) berechnen. |
Die restlichen Monde
|
Die restlichen äußeren Jupitermonde werden in Opposition nicht heller als 20 mag. Grundsätzlich erfolgt Aufsuchen und Fotografieren aber genau so, wie für die hier beschriebenen Monde. Die kleineren inneren Monde (Metis, Adrastea und Thebe) sind definitiv ausserhalb der Reichweite von Amateurteleskopen; sie wurden von den Voyager- Sonden entdeckt und erreichen bei einem Abstand von wenigen Bogensekunden von Jupiter nur scheinbare Helligkeiten von 18mag und schwächer. |
Tipps zur Beobachtung
|
Bei den schwachen, äußeren Monden ist das Motto "der Weg ist das Ziel". Letztlich gewinnt man eine Aufnahme, auf der das gesuchte Objekt mehr oder weniger deutlich als Lichtpunkt oder auch kurze Strichspur zu erkennen ist. Wie geht man vor?
|
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