Gliese 876 C gliese 876 e wikipedia C 876 Gliese

Gliese 876 C gliese 876 e wikipedia C 876 Gliese

We found 22++ Images in Gliese 876 C:




About this page - Gliese 876 C

Gliese 876 C Gliese 445 Gliese 876 C, Gliese 876 C Exoplanet Database Exokyoto Now Online 31 August 2016 876 C Gliese, Gliese 876 C Gliese 876 Ross 780 Gliese C 876, Gliese 876 C Gliese 876 E Wikipedia C 876 Gliese, Gliese 876 C Filegliese144b1png Wikimedia Commons Gliese 876 C, Gliese 876 C Artist Rendition Accurate Exoplanets Page 3 Space Engine C Gliese 876.

Interesting facts about space.

o understand the lunar phases you should first observe the changes of the shapes of the moon and when it appears so. The moon's figure is formed through reflection of sunlight from the Sun then shining onto the Earth's surface. The moon phases are a great portion of the study considering the series of movement is what makes the moon a unique object in the universe. In fact during the ancient days, it was the moon that plays the role as a time reference and prediction for best fishing times. Due to the moon and its benefits, people noticed the changes of the moon's figure, conducted researches and concluded many things.



and here is another

For most of the 20th century, astronomers thought that Pluto was a lonely little world, a solitary ball of ice circling our Sun, so very far from the comforting warmth and delightful light of our brilliant Star. However, in 1992, the discovery of the first KBO (other than Pluto), made astronomers come to the realization that Pluto is not far from the madding crowd of a vast population of other Kuiper Belt ice balls.



and finally

"Their motion is tied together in a way similar to that of three of Jupiter's large moons. If you were sitting on Nix, you would see Styx go around Pluto twice every time Hydra goes around three times," Dr. Hamilton commented in the June 3, 2015 HST Press Release.

Other facts:

In order to spot such a remote exomoon, the authors of this new study, The Hunt for Exomoons with Kepler (HEK): III. The First Search for an Exomoon around a Habitable-Zone Planet, used a technique that models the dips and features of the parent star's light-curve (stellar brightness vs. time), which are caused by transits of the planet (and any accompanying moons) in front of the face of its star. This is a complicated and difficult endeavor because numerous and diverse models of planet-moon dynamics must be taken into consideration. Each one of these models possesses parameters that describe physical properties belonging to the planet or moon, as well as parameters describing the orbital system. The authors use what is termed Bayesian statistics to account for the fact that the true orbital model of this planetary system is still not known--and this enables them to calculate if a model with our without a moon fits the observed light-curve the best.



Now, by pinpointing the precise birthday of the Moon, Dr. Jacobson and his team can help to explain why the Moon and our planet are so mysteriously similar in their compositions.



The scientists then went on to determine that the lunar birthday must have occurred approximately 95 million years after the formation of our Solar System--give or take about 32 million years.