cm
m
km
ft
mi
AU
LY
PC
g
kg
M_Sun
M_Mercury
M_Venus
M_Earth
M_Mars
M_Jupiter
M_Saturn
M_Uranus
M_Neptune
M_Pluto
M_Moon
M_Phobos
M_Deimos
M_Io
M_Europa
M_Ganymede
M_Callisto
M_Amalthea
M_Himalia
M_Elara
M_Pasiphae
M_Sinope
M_Lysithea
M_Carme
M_Ananke
M_Leda
M_Thebe
M_Adrastea
M_Metis
M_Mimas
M_Enceladus
M_Tethys
M_Dione
M_Rhea
M_Titan
M_Hyperion
M_Iapetus
M_Phoebe
M_Janus
M_Epimetheus
M_Atlas
M_Prometheus
M_Pandora
M_Ariel
M_Umbriel
M_Titania
M_Oberon
M_Miranda
M_Triton
M_Charon
M_Ceres
M_Pallas
M_Vesta
g
kg
M_Sun
M_Mercury
M_Venus
M_Earth
M_Mars
M_Jupiter
M_Saturn
M_Uranus
M_Neptune
M_Pluto
M_Moon
M_Phobos
M_Deimos
M_Io
M_Europa
M_Ganymede
M_Callisto
M_Amalthea
M_Himalia
M_Elara
M_Pasiphae
M_Sinope
M_Lysithea
M_Carme
M_Ananke
M_Leda
M_Thebe
M_Adrastea
M_Metis
M_Mimas
M_Enceladus
M_Tethys
M_Dione
M_Rhea
M_Titan
M_Hyperion
M_Iapetus
M_Phoebe
M_Janus
M_Epimetheus
M_Atlas
M_Prometheus
M_Pandora
M_Ariel
M_Umbriel
M_Titania
M_Oberon
M_Miranda
M_Triton
M_Charon
M_Ceres
M_Pallas
M_Vesta
g
kg
M_Sun
M_Mercury
M_Venus
M_Earth
M_Mars
M_Jupiter
M_Saturn
M_Uranus
M_Neptune
M_Pluto
M_Moon
M_Phobos
M_Deimos
M_Io
M_Europa
M_Ganymede
M_Callisto
M_Amalthea
M_Himalia
M_Elara
M_Pasiphae
M_Sinope
M_Lysithea
M_Carme
M_Ananke
M_Leda
M_Thebe
M_Adrastea
M_Metis
M_Mimas
M_Enceladus
M_Tethys
M_Dione
M_Rhea
M_Titan
M_Hyperion
M_Iapetus
M_Phoebe
M_Janus
M_Epimetheus
M_Atlas
M_Prometheus
M_Pandora
M_Ariel
M_Umbriel
M_Titania
M_Oberon
M_Miranda
M_Triton
M_Charon
M_Ceres
M_Pallas
M_Vesta
cm
m
km
ft
mi
AU
LY
PC
s
m
h
d
yr
Ky
My
By
From formula 36 in
Ford et. al. (2000)
.
Note that the eccentric cycle is independent of the inclination of the secondary star.
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