GJ Gliese 1002 c: Size, Mass, Gravity, Surface Temperature, Oxygen, Habitable, Atmosphere, Distance, Facts

GJ Gliese 1002 c Planet: Size, Mass, Gravity, Surface Temperature, Oxygen, Habitable, Atmosphere, Distance, Facts

GJ Gliese 1002 c Planet

In the vast expanse of the cosmos, nestled in the constellation of Cetus, lies an intriguing world known as Gj 1002 C. This celestial body, classified as a Super Earth, orbits its parent star, Gliese 1002, in a manner that has captured the attention of astronomers worldwide. Let's delve into the depths of space to uncover the mysteries of this distant exoplanet, without getting lost in the complexities of astronomical jargon.

A Super Earth Among the Stars

First and foremost, what exactly is a Super Earth? In the realm of exoplanets, a Super Earth is a classification given to planets with a mass greater than Earth's but less than that of ice giants like Neptune. In the case of Gj 1002 C, it boasts a mass of approximately 1.36 Earths, making it a hefty celestial body in its own right.

GJ 1002 C

Planet Name: Gliese 1002 C
Planet Type: Super Earth
Discovery Date: 2022
Mass: 1.36 Earths
Planet Radius (estimate): 1.1 x Earth
Orbital Radius: 0.0738 AU
Orbital Period: 21.2 days
Eccentricity: 0.0
Detection Method: Radial Velocity

Gliese 1002 c

GJ Gliese 1002 c Planet Size Compared to Earth

Gj 1002 C has an estimated radius of approximately 1.1 times that of Earth, classifying it as a Super Earth with a larger size than our home planet.

GJ Gliese 1002 c Planet Mass Compared to Earth

The mass of Gj 1002 C is approximately 1.36 times that of Earth, categorizing it as a hefty celestial body in the Super Earth classification.

GJ Gliese 1002 c Planet Surface Gravity Compared to Earth

While specific details about the surface gravity of Gj 1002 C are not provided, considering its higher mass and larger size than Earth, it can be inferred that Gj 1002 C's surface gravity is likely stronger than Earth's, exerting a greater gravitational force.

What is The Surface Temperature of GJ Gliese 1002 c Planet

Details about the surface temperature of Gj 1002 C are not explicitly provided in the text. Further research and observation are needed to determine the specific surface temperature of Gj 1002 C, shedding light on its environmental conditions.

Does GJ Gliese 1002 c Planet Have Oxygen

Specifics about the atmospheric composition of Gj 1002 C, including the presence of oxygen, are not presented. Additional studies and observations are necessary to unveil the gases present in Gj 1002 C's atmosphere, a crucial factor in understanding its potential habitability.

Is GJ Gliese 1002 c Planet Habitable

While details about the habitability of Gj 1002 C are not explicitly discussed, its classification as a Super Earth and the absence of specific information about its atmosphere make it challenging to draw conclusions. Further exploration and research are required to assess Gj 1002 C's potential habitability.

GJ Gliese 1002 c Planet Atmosphere Composition

Information regarding the atmospheric composition of Gj 1002 C is not provided in the text. In-depth studies and observations are essential to uncover the specific gases present in Gj 1002 C's atmosphere, offering insights into its environmental conditions.

GJ Gliese 1002 c Planet Distance from Earth

Gj 1002 C orbits its parent star Gliese 1002, which is located approximately 15.82 light years away from Earth. This places Gj 1002 C beyond our solar system in our cosmic neighborhood.

10 Interesting Fun Facts About GJ Gliese 1002 c Planet

  1. Discovery Year: Gj 1002 C was discovered in the year 2022.
  2. Mass: Gj 1002 C has a mass approximately 1.36 times that of Earth.
  3. Radius Estimate: The estimated radius of Gj 1002 C is roughly 1.1 times that of Earth.
  4. Orbital Radius: Gj 1002 C orbits its host star at a distance of 0.0738 astronomical units (AU).
  5. Orbital Period: It completes one full orbit around Gliese 1002 in approximately 21.2 days.
  6. Eccentricity: Gj 1002 C's orbit has an eccentricity value of 0.0, indicating a circular orbit.
  7. Detection Method: The Radial Velocity method was employed to detect Gj 1002 C's existence.
  8. Host Star Class: Gliese 1002, the host star, is classified as an M-type star.
  9. Cosmic Proximity: Gj 1002 C and its host star are located in the constellation of Cetus, approximately 15.82 light years away.
  10. Scientific Interest: The unique characteristics of Gj 1002 C, including its mass, radius, and orbital properties, make it a fascinating subject for scientific exploration and study.

Unveiling the Discovery

The announcement of Gj 1002 C's existence came as a thrilling revelation in the year 2022, when it was unveiled to the world. The dedicated efforts of astronomers and the utilization of the Radial Velocity detection method made this groundbreaking discovery possible. This method involves detecting subtle shifts in a star's spectrum caused by the gravitational tug of an orbiting planet.

A Cosmic Neighborhood: Gliese 1002

Before we journey further into the specifics of Gj 1002 C, let's take a moment to acquaint ourselves with its host star, Gliese 1002. This M-type star resides in the constellation of Cetus, a mere 15.82 light years away from our own Earth. To put this cosmic distance into perspective, imagine embarking on a journey at the speed of light – it would still take you nearly 16 years to reach this distant star.

Both the star and its orbiting planet find their place in the equatorialern hemisphere, but don't expect to gaze upon them from Earth's night sky. They remain elusive, concealed by the dimness of their cosmic surroundings.

The Rhythmic Dance of Gj 1002 C

Now, let's explore the intricacies of Gj 1002 C's orbit. This Super Earth completes a full circuit around Gliese 1002 in approximately 21.2 days. In other words, its year, if we may call it that, is a mere fraction of Earth's, amounting to approximately 0.06 Earth Years. To provide a vivid comparison, by the time Earth has journeyed around the Sun once, Gj 1002 C will have completed a staggering 18.07 orbits around its parent star.

The orbital radius, or the distance at its farthest point from Gliese 1002, is a mere 0.0738 astronomical units (AU). For reference, 1 AU is the average distance of Earth from the Sun. This implies that Gj 1002 C orbits its star at a distance even closer than the innermost planet of our solar system, Mercury, does to the Sun.

A Universe of Possibilities

The discovery of Gj 1002 C adds yet another piece to the ever-expanding puzzle of the universe. While we've uncovered some fascinating details about this Super Earth, there are still many questions waiting to be answered. Here are a few more intriguing aspects of Gj 1002 C:

The Eccentricity Enigma

One notable characteristic of Gj 1002 C's orbit is its eccentricity, which stands at a value of 0.0. In orbital terms, eccentricity measures the deviation of an orbit from being a perfect circle. A value of 0.0 implies a perfectly circular orbit. This circularity is quite distinctive, as many exoplanets exhibit elliptical orbits, leading to variations in their distance from their host stars. Gj 1002 C, however, maintains a consistent distance from Gliese 1002 throughout its journey.

GJ 1002 C

A Rocky Terrain

While we have information about the planet's mass, its radius remains an estimate, roughly 1.1 times the size of Earth. This estimate suggests that Gj 1002 C likely possesses a rocky composition, similar to our own planet. The quest to understand more about its surface conditions and atmosphere, if any, is a tantalizing prospect for astronomers in the years to come.

The Endless Exploration

The discovery of Gj 1002 C is a testament to the relentless pursuit of knowledge that drives the field of astronomy. With each new exoplanet found, our understanding of the cosmos deepens, and our perspective on the universe broadens. It serves as a reminder that there are countless worlds waiting to be explored beyond our solar system, each with its own unique story to tell.

As technology advances and our observational techniques improve, it's likely that we will continue to uncover more Super Earths, gas giants, and perhaps even Earth-like exoplanets in the future. These discoveries not only fuel our curiosity but also ignite our imagination about the potential for life beyond our own blue planet.


In the depths of space, far from our Earthly home, Gj 1002 C stands as a testament to the wonders of the universe. This Super Earth, with its unique characteristics and proximity to its host star, offers a glimpse into the diversity of planetary systems that exist beyond our solar system. While it may remain distant and shrouded in cosmic mystery, its discovery reminds us that the cosmos is an ever-evolving tapestry of celestial marvels, waiting to be unveiled by the inquisitive minds of astronomers and space enthusiasts alike.

So, as we contemplate the enigma of Gj 1002 C, let us also reflect on the boundless possibilities that the universe holds, and the exciting journey of exploration that lies ahead for humanity as we continue to unlock the secrets of the cosmos.

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