Solar System by apparent polar diameter

Solar System objects sorted by decreasing apparent polar diameter (polar angular diameter).

list

0. Planet III Terra: δ = 180°
1. Star Sol: δ_p = 31.920548923284083741997194931945' = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {a_\mathrm{🜨} - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math]
2. Terran Satellite I Luna: δ_p = 31.580165489645637940487966617458' = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {a - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math]
3. Planet V Jupiter: δ_p = 34.736187234895211100447615213044" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {\sqrt{a^2 + a_\mathrm{🜨}^2} - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math]
4. Planet VI Saturn: δ_p = 15.501667362042194294966203210650" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {\sqrt{a^2 + a_\mathrm{🜨}^2} - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math]
5. Planet II Venus: δ_p = 13.522292763889732782075156095712" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {\sqrt{a^2 + a_\mathrm{🜨}^2} - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math]; δ_p,transit = 1.0054506984964605247906355638423' = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {a_\mathrm{🜨} - a - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math]
6. Planet I Mercury: δ_p = 6.2697361133227842087743385256592" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {\sqrt{a^2 + a_\mathrm{🜨}^2} - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math]; δ_p,transit = 10.969591499763819427952423865415" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {a_\mathrm{🜨} - a - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math]
7. Planet IV Mars: δ_p = 5.1085080826869896814787495395767" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {\sqrt{a^2 + a_\mathrm{🜨}^2} - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math]
8. Planet VII Uranus: δ_p = 3.5835136598560523132304774636404" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {\sqrt{a^2 + a_\mathrm{🜨}^2} - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math]
9. Planet VIII Neptune: δ_p = 2.2309780633955307690723727220933" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {\sqrt{a^2 + a_\mathrm{🜨}^2} - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math]
10. Jovian Satellite III Ganymede: δ_p = 1.3705678536729296420641623384737" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {\sqrt{a_\mathrm{♃}^2 + a_\mathrm{🜨}^2} - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math]; δ_p,transit = 1.3724210256198444739044691611984" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {\sqrt{a_\mathrm{♃}^2 + a_\mathrm{🜨}^2} - a - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math]
11. Jovian Satellite IV Callisto: δ_p = 1.2542816935672386199682744208677" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {\sqrt{a_\mathrm{♃}^2 + a_\mathrm{🜨}^2} - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math]; δ_p,transit = 1.2572677027292330924821053944132" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {\sqrt{a_\mathrm{♃}^2 + a_\mathrm{🜨}^2} - a - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math]
12. Jovian Satellite I Io: δ_p = 0.94509864661346713233226891995622" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {\sqrt{a_\mathrm{♃}^2 + a_\mathrm{🜨}^2} - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math]; δ_p,transit = 0.94559965605230578136590081661216" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {\sqrt{a_\mathrm{♃}^2 + a_\mathrm{🜨}^2} - a - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math]
13. Jovian Satellite II Europa: δ_p = 0.81190359888560613374657313535298" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {\sqrt{a_\mathrm{♃}^2 + a_\mathrm{🜨}^2} - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math]; δ_p,transit = 0.81259131978851491280107395453298" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {\sqrt{a_\mathrm{♃}^2 + a_\mathrm{🜨}^2} - a - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math]
14. Saturnian Satellite VI Titan: δ_p = 0.73691456293876801205809823824166" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {\sqrt{a_\mathrm{♄}^2 + a_\mathrm{🜨}^2} - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math]; δ_p,transit = 0.73753981495486210980388239795154" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {\sqrt{a_\mathrm{♄}^2 + a_\mathrm{🜨}^2} - a - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math]
15. Minor Planet 1 Ceres: δ_p = 0.41753343283063327014727731698934" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {\sqrt{a^2 + a_\mathrm{🜨}^2} - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math]

gallery

• 

  Planet Terra

• 

  Star Sol

• 

  Terran Satellite Luna

• 

  Planet Jupiter

• 

  Planet Saturn

• 

  Planet Venus

• 

  Planet Mercury

• 

  Planet Mars

• 

  Planet Uranus

• 

  Planet Neptune

• 

  Jovian Satellite Ganymede

• 

  Jovian Satellite Callisto

• 

  Jovian Satellite Io

• 

  Jovian Satellite Europa

• 

  Saturnian Satellite Titan

• 

  Minor Planet Ceres

notes

• δ_p,Vesta = 0.24000819502324194424118176848316" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {\sqrt{a^2 + a_\mathrm{🜨}^2} - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math] [Minor Planet 4 Vesta]
• δ_p,Rhea = 0.21795641974552450585454700789838" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {\sqrt{a_\mathrm{♄}^2 + a_\mathrm{🜨}^2} - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math]; δ_{p,RheaTransit} = 0.21803614881745382705477048885644" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {\sqrt{a_\mathrm{♄}^2 + a_\mathrm{🜨}^2} - a - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math] [Saturnian Satellite V Rhea]
• δ_p,Pallas = 0.20968846407255300104805915289715" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {\sqrt{a^2 + a_\mathrm{🜨}^2} - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math] [Minor Planet 2 Pallas]
• δ_p,Iapetus = 0.20458995250702567961919743641594" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {\sqrt{a_\mathrm{♄}^2 + a_\mathrm{🜨}^2} - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math]; δ_{p,IapetusTransit} = 0.20509665521726423828994131864717" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {\sqrt{a_\mathrm{♄}^2 + a_\mathrm{🜨}^2} - a - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math] [Saturnian Satellite VIII Iapetus]
• δ_p,Triton = 0.12401859762852024218133875810357" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {\sqrt{a_\mathrm{♆}^2 + a_\mathrm{🜨}^2} - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math]; δ_{p,TritonTransit} = 0.12402837351670037923759622773235" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {\sqrt{a_\mathrm{♆}^2 + a_\mathrm{🜨}^2} - a - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math] [Neptunian Satellite I Triton]
• δ_p,Titania = 0.11311789066885177678766982396711" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {\sqrt{a_\mathrm{⛢}^2 + a_\mathrm{🜨}^2} - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math]; δ_{p,TitaniaTransit} = 0.11313504513490315697087061110757" = [math]\displaystyle{ 2\operatorname{asin}\left( \frac {r_\mathrm{p}} {\sqrt{a_\mathrm{⛢}^2 + a_\mathrm{🜨}^2} - a - r_{\mathrm{e},\mathrm{🜨}}} \right) }[/math] [Uranian Satellite III Titania]

see also

• Solar System by orbital period
• Solar System by orbital radius
• Solar System by mass
• Solar System by surface area
• Solar System by polar radius
• Solar System data for Maxima
• Solar System by size (Wikipedia)