Editing Venus

[[Category: Astronomy]]
== Explanation ==
[[File:Venus_as_photographed_by_the_Pioneer_Venus_Orbiter.jpg|thumb|300px|right|Venus as photographed by the Pioneer Venus Orbiter through ultraviolet filter in 1979.]]
Venus is the second [[planet]] from the [[Sun]] and is the hottest planet in the [[solar system]]. It is similar to [[Earth]] in size of about 6052 km in radius, with an iron core of 3200 km in radius. The planet is highly volcanic due to the thin crust and the interior heat. Venus lacks [[season]]s as the axis of the planet has only a 3° tilt. The [[temperature]] reaches as high as 744 K on the surface of the planet due to the heat trapped in the dense [[atmosphere]] and by the [[runaway greenhouse effect]]. It also makes the planet visible from Earth even during the day, as the thick and toxic atmospheric clouds [[reflection|reflect]] most sunlight. In fact, it is bright enough to cast shadows at night. Venus is the third brightest object in the sky when seen from Earth. 

Venus takes about 243 Earth days for Venus to rotate and about 225 Earth days to revolve around the Sun in a nearly perfect circular [[orbit]]. The planet's rotation is the slowest of all planets, and it rotates in a clockwise direction compared to the other planets in the solar system. The other planet that rotates this way is [[Uranus]]. Due to this [[retrograde motion|retrograde rotation]], the day-night cycle happens every 117 Earth days. The slow rotation is the reason why Venus has a very weak [[magnetosphere]].

== Frequently Asked Questions ==

=== Is there water on Venus? ===
Studies of the previous data and the results from ESA's Venus Express missions from the Venus had shown that about 0.002% of water vapour might be retained in the upper layers of the atmosphere in the clouds. It is believed that [[water]] might have formed on Venus through the impacts of [[comet]]s and [[asteroid]]s and should have evaporated completely due to the runaway greenhouse effect. It also explains the hydrogen atoms being stripped away from the planet's atmosphere.

=== How runaway greenhouse effect makes Venus hotter than Mercury? ===
Though [[Mercury]] is closer to the Sun, it doesn't have an atmosphere to retain all the [[heat]]. In contrast, Venus has a dense atmosphere that retains all the heat on the planet. Besides that, due to the volcanic activities the Venusian atmosphere has more [[carbon dioxide]] in it. It is believed that during the formation of the planet, Venus might have had [[ocean]]s, which later boiled and evaporated due to the high temperature.<ref>Ingersoll, Andrew P. "The Runaway Greenhouse: A History Of Water On Venus". Journal of the Atmospheric Sciences 26.6 (1969): 1191-1198. Web. 12 Jan. 2017.</ref> The [[water vapour]] should have [[photodissociation|photodissociated]] into [[hydrogen]] and [[oxygen]]. And the oxygen should have [[oxidation|oxidized]] surface minerals, releasing carbon dioxide, a [[greenhouse gas]] into Venus's atmosphere. The increase in the temperature due to the [[greenhouse effect]] would then evaporate more water into water vapour, another greenhouse gas, and would have enabled a positive feedback on the carbon dioxide-rich atmosphere to form a runaway greenhouse effect that makes Venus, the hottest planet in the solar system.

=== How does the Venusian atmosphere survive the solar winds? ===
Venus is a massive planet, weighing about 4.868×10<sup>24</sup> kg. Therefore, gravity plays an important role in holding the atmosphere to the planet at the surface level. But due to the slow rotation, the planet has no internal magnetic field. The solar winds, therefore, interact freely with [[ionosphere]] of the planet and strips away lighter elements along with it. This interaction forms an induced magnetosphere with a [[bow shock]], [[magnetosheath]], [[magnetopause]], and a [[magnetotail]]. Though the solar winds interact deep in the atmosphere and strip away a significant part of it, this induced magnetosphere is strong enough to control the interaction during the periods of minimum [[solar activity]]. The primary loss of atmospheric elements happens at the magnetotail, with a few magnetic reconnections. These recombination events create the ionosphere on the night side of the Venus, and the combination of all these events helps Venus to retain its atmosphere.

== References ==
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