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Interesting facts about space.

On the day following the ceremony, the people who were due to leave the city commenced their new journeys. Those who arrived at a particular city got engaged in the chores that formed their site duties. Those who travel carry only the bare essential items including the food they need for the next 14 days of travel. As a means of avoiding monotony and making it interesting, walking patterns of the 'travelers' were of diverse, rhythmic styles and were almost always accompanied by appropriate sound effects. The specific aspect of "Fourteen days" travel and "Fourteen days" residence is not a hard and fast rule of any kind, but it is the practice that had come down from the past thousands of years. It might have something to do with half-moon day or the intervals of tidal waves that were experienced. The post ceremonial arrangements were so arranged that every person who reached a city understood what community functions they would need to be engaged in from the very next day. During their stay they attended to regular community work such as cooking, cleaning, farming, field work, gathering food from lakes, attending to various community based construction works, teaching children, day care work, etc. Nobody gave them directions as to what to do. But they sought out exactly what work was there to be done for the next fourteen days.

and here is another

Kepler-22b sports an orbital period of approximately 200 days. Its inclination is about 90 degrees, and it transits in front of the face of its star as observed by Earth-based astronomers. The shape of Kepler-22b's orbit is unknown, but it is known that its average orbital distance is well within its parent star's habitable zone. Many extrasolar planets are known to sport highly elliptical (football-shaped) orbits, and if Kepler-22b also travels along such a path around its star, it would only spend a tiny fraction of its time within this Goldilocks zone. This would cause the planet to undergo such extreme variations in temperature that it would not be a pleasant place for delicate living things to evolve and flourish. Kepler-22b is approximately 2.4 times the radius of Earth.

and finally

The research published in the July 4, 2016 issue of Nature Geoscience highlights the main factor differentiating moon-birth around Mars and Earth: the differing rotation speeds of the two planets prompted "completely different tidal actions," Dr. Charnoz explained in the July 4, 2016 CNRS Press Release. Dr. Charnoz proposes that at the time of their respective impacts, "Earth took less than four hours to spin on its axis whereas Mars rotated very slowly over a 24-hour period." The result of this important difference caused Earth to hold on to its single, large Moon, while the Martian collision created a dozen smaller moons alongside a larger moon. As time went by, Martian tidal action--resulting from the planet's slow rotation rate--caused most of the moons, including the largest one, to crash back down to the surface of their parent-planet. As a result, only the two most distant moons, Phobos and Deimos, survived as testimony to the ancient catastrophe.

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This new method is based on the fact that elements composing our planet's crust that have a tendency to combine with iron--such as iridium and platinum--arrived at Earth after this last giant collision.

Crida and Charnoz tested their new model to find out whether it could be applied to other planets in addition to Saturn. Their investigation has brought to light several valuable facts. This scenario for moon-birth from planet-rings succeeds in offering an explanation as to why the largest moons dwell farther away from their parent planet than the smaller moons. It further explains the gathering of moons close to the Roche limit--their birthplace--on the outermost fringes of the rings. This distribution is in agreement with what is seen in the Saturn-system. The same scenario can also apply to the moons of other giant planets, such as the ice-giants Uranus and Neptune. The Uranus-system and the Neptune-system are also organized in a similar way. This discovery suggests that long ago, when these planets were young, they also sported impressive rings like those of Saturn--which ultimately vanished when their moons were born. Finally, this scenario can also explain the formation of Earth's Moon, and the moons of the dwarf planet Pluto. According to Crida and Charnoz's calculations, under special circumstances a single moon--like Earth's own--can be born from a primordial ring around its planet. This may well have occurred in both the case of Earth's single large Moon, and for Pluto's largest moon, Charon.

Do you know the name of the lunar module used in Apollo 11? Its name was "Eagle"; named after the United States national bird. The name "Columbia" was chosen for the larger command module.