Weywot

Alternative name: Also known as: S/2006 (50000) 1

Moon

Weywot Radius

Radius of Weywot

The radius of Weywot is one of its most fundamental physical characteristics. The Weywot radius measures approximately 170 km, making it 37.48× smaller than Earth. This measurement represents the average distance from the center of Weywot to its surface, providing crucial information about the celestial body's size and volume.

Understanding the Weywot radius is essential for calculating other important properties such as surface area, volume, and gravitational characteristics. The radius directly influences how we perceive and study this fascinating object in our Solar System.

Weywot Semi-Major Axis

Orbital Radius of Weywot

The Weywot semi-major axis is a critical orbital parameter that defines the average distance from the Sun. The Weywot semi-major axis measures 0.00 AU (approximately 14,500 km), which represents the average orbital radius of Weywot. This measurement is fundamental to understanding Weywot's position in the Solar System and its relationship with other celestial bodies.

The orbital radius of Weywot determines how much solar radiation the planet receives, which directly influences its temperature, climate, and overall environmental conditions. This distance places Weywot in a specific region of the Solar System, each with unique characteristics and scientific significance.

When we examine the Weywot semi-major axis 0.00 AU, we gain insights into the planet's orbital mechanics, including its orbital period, velocity, and the gravitational forces at play. This parameter is essential for space mission planning and understanding the dynamics of our Solar System.

Weywot Orbital Period

How Long is a Year on Weywot?

The Weywot orbital period defines the length of one complete revolution around the Sun. The Weywot orbital period is 0.00 hours, which is 2537236.65× shorter than Earth's year. This orbital period determines the length of Weywot's year and directly influences seasonal patterns, climate cycles, and temperature variations.

The Weywot orbital period is directly related to its distance from the Sun, following Kepler's laws of planetary motion. Planets farther from the Sun have longer orbital periods, while those closer complete their orbits more quickly. This relationship helps explain why Weywot takes the time it does to complete one full orbit.

Understanding the Weywot orbital period is crucial for space mission planning, as it affects launch windows, travel times, and the timing of scientific observations. This fundamental orbital parameter also provides insights into the planet's formation history and its current position in the Solar System's dynamic structure.

How Far is Weywot from Earth?

Distance Between Weywot and Earth

How far is Weywot from Earth? This is a question that fascinates both astronomers and space enthusiasts. The distance between Weywot and Earth varies throughout their orbital cycles, but on average, Weywot is approximately 1.50e+8 km(1.000 AU) away from Earth. This distance changes as both planets orbit the Sun, with the closest approach (opposition) and farthest separation (conjunction) creating significant variations.

The question "How far is Weywot from Earth?" has practical implications for space exploration. This distance determines travel time for spacecraft, communication delays for mission control, and the amount of fuel required for interplanetary missions. Understanding this distance is essential for planning future missions to Weywot.

The distance between Weywot and Earth is not constant due to the elliptical nature of both planets' orbits. When Weywot and Earth are on the same side of the Sun (opposition), they are at their closest, making this the optimal time for observations and potential missions. Conversely, when they are on opposite sides of the Sun (conjunction), they are at their farthest separation, which can exceed the average distance significantly.

Table of Contents

Physical Properties

Mean Radius: 170km
Equatorial Radius: 50km
Polar Radius: 0km
Mass: —
Volume: —
Density: 1g/cm³
Gravity: 0m/s²
Escape Velocity: 0m/s
Flattening: 0
Average Temperature: 0.0 K (-273.1 °C)
Axial Tilt: 0°
Semimajor Axis: 14,500km
Perihelion: 12,470km
Aphelion: 16,530km
Eccentricity: 0.148
Inclination: 14°
Sidereal Orbit: 0.00 hours
Sidereal Rotation: 0 seconds
Mean Anomaly: 0°
Argument of Periapsis: 0°
Longitude of Ascending Node: 0°

Overview of Weywot

Weywot is a fascinating moon in our Solar System that has captured the attention of astronomers and space enthusiasts alike. With a Weywot radius of 170 km, making it 37.5× smaller than Earth's size, this celestial body presents unique characteristics that distinguish it from other objects in our cosmic neighborhood. Positioned at an average distance of 14,500 km (0.000 AU) from the Sun, Weywot occupies a significant place in the Solar System's architecture. As a moon, Weywot demonstrates the incredible diversity of natural satellites that orbit larger celestial bodies throughout our Solar System.

Physical Characteristics

The Weywot physical characteristics reveal a world of remarkable dimensions and properties. The Weywot radius measures 170 km, making it 37.5× smaller than Earth's size.

Orbital Properties

The Weywot orbit reveals fascinating details about its journey around the Sun and its relationship to other Solar System objects. The Weywot orbit has a semimajor axis of 14,500 km (0.000 AU), placing it 10317.1× smaller than Earth's distance from the Sun. At its closest approach (perihelion), Weywot comes within 12,470 km of the Sun, while at its farthest point (aphelion), it reaches 16,530 km, creating a 28.0% variation in solar distance. The Weywot orbit is moderately elliptical with an eccentricity of 0.148 (8.9× Earth's orbital eccentricity), creating noticeable seasonal variations in solar radiation. The Weywot orbit takes 0.00 hours to complete (2537236.7× smaller than Earth's orbital period), defining the length of its year. The orbital inclination of 14° indicates how much the Weywot orbit is tilted relative to the Solar System's ecliptic plane. This moderate inclination indicates a typical orbital evolution for objects in this region of the Solar System.

Rotation and Tilt

The Weywot rotation and axial orientation provide crucial insights into its daily and seasonal cycles, as well as its orbital dynamics. The Weywot axial tilt of 0° determines the intensity and nature of seasonal variations. With minimal axial tilt, Weywot experiences virtually no seasonal changes, maintaining relatively constant temperatures throughout its year. The orbital orientation parameters reveal additional details about Weywot's position in space. The mean anomaly of 0° indicates the planet's current position in its orbit relative to its perihelion. The argument of periapsis of 0° shows how the orbit's orientation changes over time due to gravitational perturbations. The longitude of ascending node of 0° defines the reference point where the orbit crosses the ecliptic plane.

Temperature and Atmosphere

The Weywot temperature and atmospheric conditions are fundamental to understanding its habitability and environmental characteristics. The Weywot average temperature of 0.0 K (-273.1 °C) (-459.7°F) provides the baseline for understanding its climate. These extremely cold temperatures make Weywot inhospitable to life as we know it, with any atmosphere likely frozen solid on the surface. Compared to Earth's average temperature of 15°C (59°F), Weywot presents a dramatically different thermal environment. Being closer to the Sun than Earth, Weywot receives more intense solar radiation, contributing to its temperature profile. The elliptical orbit creates significant temperature variations throughout the year, with extreme seasonal changes.

Escape Velocity & Flattening

The Weywot escape velocity and shape characteristics reveal important details about its gravitational field and rotational dynamics. The Weywot escape velocity of 0 m/s determines how easily objects can break free from its gravitational pull. This relatively low escape velocity means that gases and light molecules can easily escape into space, making it difficult for Weywot to retain a substantial atmosphere. The Weywot flattening of 0.0000% indicates how much the planet's rotation affects its shape. This minimal flattening suggests a nearly spherical shape, indicating either slow rotation or a very rigid internal structure.

FAQs About Weywot

How big is Weywot compared to Earth?

Weywot has a radius of 170 km, making it 37.5× smaller than Earth's size. In terms of volume, Weywot is 0.0× the size of Earth. This size difference significantly impacts the planet's gravity, atmospheric retention, geological processes, and overall planetary characteristics.

How far is Weywot from the Sun?

Weywot orbits at an average distance of 14,500 km (0.000 AU) from the Sun, placing it 10317.1× smaller than Earth's distance from the Sun. This distance determines the amount of solar radiation the planet receives and significantly influences its temperature and climate.

How long is a year on Weywot?

A year on Weywot lasts 0.00 hours (2537236.7× smaller than Earth's orbital period). This orbital period defines the length of the planet's year and affects seasonal patterns, temperature variations, and the overall climate cycle.

What is Weywot made of?

Weywot has a density of 1 g/cm³ (5.5× smaller than Earth's density). This density provides important clues about the planet's internal composition. The low density indicates a composition dominated by lighter elements, characteristic of gas giants or icy bodies.

Does Weywot have seasons?

Weywot has an axial tilt of 0°. With minimal axial tilt, the planet experiences virtually no seasonal changes, maintaining relatively constant temperatures throughout its year.

Discovery Information

Discovered By: Michael E. Brown, T.A. Suer
Discovery Date: 22/02/2007

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