Tendor System

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Tendor System

The Sun and planets of the Tendor System (distances not to scale)
Age	4.568 billion years
Location	Omicron Cloud
System Mass	1.0011 Solar masses
Nearest star	TBA
Nearest planetary system	TBA
Planetary system
Semi-major axis of outer known planet (Tsanfau)	24.25 AU
Distance to Kuiper cliff	40 AU
Population
Stars	1 (Sun)
Known major planets	7 (Slahonus Anteria Stratos Bieruta Aurious Nirduk Tsanfau)
Known dwarf planets	TBA
Known natural satellites	177+ (177 planetary, TBA minor planetary)
Known minor planets	TBA
Known Comets	TBA
Identified rounded satellites	22
Orbit about Galactic Center
Invariable-to-galactic plane inclination	60.19° (ecliptic)
Distance to Galactic Center	27,000 ± 1,000 ly
Orbital speed	220 km/s (140 mi/s)
Orbital period	225–250 Myr
Star-related properties
Spectral type	G2V
Frost line	≈5 AU
Distance to heliopause	≈120 AU
Hill sphere radius	≈1–3 ly

The Tendor System is the gravitationally bound system comprising the Sun and the objects that orbit it. Of those objects that orbit the Sun directly, the largest six are the planets with the remainder being smaller objects, such as dwarf planets and small Solar System bodies.

The Tendor System clickable scheme
Sun	Slahonus	Anteria	Stratos	Lesser belt	Bieruta	Greater belt	Aurious	Nirduk	Tsanfau	Border belt

Planets

A planet is an astronomical body orbiting a star or stellar remnant that

• is massive enough to be rounded by its own gravity,
• is not massive enough to cause thermonuclear fusion, and
• has cleared its neighbouring region of planetesimals

There are seven planets within the Tendor system. The three inner terrestrial planets have dense, rocky compositions, few or no moons, and no ring systems; They are composed largely of refractory minerals, such as silicates, which form their crusts and mantles, and metals, such as iron and nickel, which form their cores. The three outer gas planets consist overwhelmingly of hydrogen and helium, and all possess rings of varying prominence. The rings of the gas giants Aurious and Nirduk mainly consists of dust, rock and particles ranging in size from micrometers to meters, while the rings of the ice giant Tsanfau mostly consist of ice and some radiation-processed organics. Bieruta, the fourth planet and a gas dwarf, is characterized by its gaseous exterior and rocky core, and theorized to be a failed gas giant due a lack of available material from its later formation.

Planet		Slahonus	Anteria	Stratos	Bieruta	Aurious	Nirduk	Tsanfau
Planet visual
Astronomical symbol				Stratos	Bieruta	Aurious	Nirduk	Tsanfau
Semi-major axis	km AU	49,807,115 0.33294	149,597,890 1.00000	364,233,420 2.43475	753,705,490 5.03821	1,251,027,150 8.3626	2,200,225,600 14.7076	3,628,242,000 24.2533
Equatorial Radius	km :⊕	2,967.33 0.4658	6,371.01 1	6,237.42 0.97897	14,099.6 2.2131	64,675 10.151	53,637 8.419	24,695 3.876
Mass	kg :⊕	6.2111×1023 0.1040	5.9722×1024 1	5.4204×1024 0.9076	2.7603×1025 4.622	1.4437×1027 241.7	6.1729×1026 103.4	9.1345×1025 15.30
Equatorial Gravity	m/s2	4.708	9.807	9.300	9.267	23.034	14.320	9.996
Escape Velocity	m/s	5.286	11.186	10.770	16.165	54.584	39.193	22.220
Orbital period	days years	70.169 0.1921	365.256363 1.0000	1387.648 3.7992	4130.59 11.3089	8833.03 24.1835	20602.05 56.4053	43626.87 119.4439
Mean orbital speed	km/s	51.619	29.785	19.088	13.270	10.300	7.766	6.048
Sidereal rotation period	days	70.16922	0.99726968	1.051208	0.83274	0.42217	0.43141	0.72529
Atmospheric composition		O2, Na, K	N2, O2, Ar, CO2	N2, CH4, CO2, Ar	H2, He, N2, Ar	H2, He	H2, He	H2, He, CH4
Number of known moons		0	1	3	8	77	65	23
Rings?		No	No	No	No	Yes	Yes	Yes
Axial tilt	deg.	0.04	23.43928	11.719	6.515	25.75	3.70	32.69