Kurato

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Kurato
(253) mathilde crop.jpg
Orbital characteristics
Epoch A2000
Aphelion244410 km (151870 mi)
Perihelion219360 km (136300 mi)
231887 km (144088 mi)
Eccentricity~0.054021
13.4711 d (323.31 h)
1.249 km/s (0.776 mi/s)
Inclination10.3670° (to Stratos's equator)
1.3524° (to the ecliptic)
Satellite ofStratos
Physical characteristics
15,865,000km2
(6,125,000 mi2)
Volume65,180.972 km3
Mass1.195 × 1015 kg
Mean density
1.834 g/cm3
1.2059 m/s2
1.646 km/s (1.023 mi/s)
synchronous
2.02°
Albedo0.234 Bond
Surface temp. min mean max
Celsius -181.2°C -108.8°C -49.7°C
Fahrenheit -294.2°F -163.8°F -57.5°F

Kurato, or Stratos II, is the larger of the two significant moons of Stratos, with an orbital period of just shorter than 13 and a half days around the planet.

Formation

Kurato is thought to have originated as a small planetoid within the inner Tendor System, likely at around a distance of 2-2.1 AU. It is believed that the migration of Aurious towards the inner system would have disturbed its previously circular orbit and shifted it into a more elliptical orbit, which after a few million years landed it within the influence of Stratos, henceforth capturing it as a moon.

The hypothesis came to be given the fact that the moon has an inclination more similar to that of the ecliptic than that of Stratos and Loftuslo, a composition comparatively dissimilar with Stratos and Loftuslo, and that the hypothesis explains the distinct lack of planets in between Anteria and Stratos.

Physical Characteristics

WIP

Surface Geology

WIP

Orbit and Rotation

Kurato is tidally locked to Stratos, similar to that of Loftuslo, and completes an orbit around the planet about every 13.5 days. Curiously, the moon has a relatively large axial tilt for a tidally locked moon, even moreso than the Moon, making for slight variations in which portions of the moon's surface can be seen on the Stratoshian surface.

Habitability

WIP