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Sun Merkur Picture of Planet Mercury Videoplaneten Merkur Sun conjunct Mercury Because the ego and the mind are aligned, people with Sun conjunct Mercury possess much mental energy. They are always in a position to think about what they want, and in many ways, this is an interruption of the will. Mercury, the innermost planet of the solar system and the eighth in size and mass. Its closeness to the Sun and its smallness make it the most elusive of the planets visible to the unaided eye. Because its rising or setting is always within about two hours of the Sun’s, it is never observable when the sky is fully dark. The sun as seen from Mercury, which is about 36 million miles from the sun or 39 percent of the distance from Earth to the sun. On Mercury, the sun looms about three times larger than it does on Earth. Mercury is the closest planet to the Sun, at a distance of million kilometers / miles or AU away. It takes sunlight minutes to travel from the Sun to Mercury. Mercury has a radius of km or mi, and a diameter of km or mi. It is about the size of the continental United States, slightly bigger. From the surface of Mercury, the Sun would appear more than three times as large as it does when viewed from Earth, and the sunlight would be as much as seven times brighter. Despite its proximity to the Sun, Mercury is not the hottest planet in our solar system – that title belongs to nearby Venus, thanks to its dense atmosphere. Deine Nummer 1 - Lizenzierter Online-Spieleanbieter seit mit Sportwetten, Merkur Spielen, Willkommensbonus und schnellen Auszahlungen. Es war eine der wenigen Webseiten, die Spiele des renommierten Spieleentwicklers Merkur anbieten durfte. Auch heute setzt man bei Sunmaker weiterhin auf. DAS ANGEBOT GILT NUR FÜR PERSONEN MIT WOHNSITZ ODER GEWÖHNLICHEM AUFENTHALTSORT IN SCHLESWIG-HOLSTEIN. Hier bei sunmaker. Mache deine 1. Einzahlung und wir verdoppeln! sunmaker, die erste Online-Spielothek mit den bekanntesten Automatenspielen von Merkur. Kontakt.
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Your Email Address. Cafe Astrology. Sun conjunct Mercury Because the ego and the mind are aligned, people with Sun conjunct Mercury possess much mental energy.
Cafe Astrology Home. Share this Article Like this article? Take The Test Now!! Mercury Retrograde Meaning Mercury retrograde is all about slowing down and being more mindful.
Communication is difficult but not impossible during this period. Be patient with other people and be more present in your expression.
Nine times out of ten, this compassionate deliberation will get you through. In that rare case where compassionate deliberation is not enough, it might be best to put the interaction off until Mercury goes direct again in a few weeks.
Test Now! Mercury retrograde calendar encourages us to slow down in all aspects of our lives. Our modern mindset forces us to constantly go, go, go.
Too often, this urge to succeed prevents us from being thorough in the projects that we do take on. Mercury in retrograde gives us a chance to go back and redo it the correct way.
By slowing down, going back to our previous work, and tying up loose ends, we will be more in line with the energies present during a Mercury retrograde.
Depressions or fossae are named for works of architecture. Montes are named for the word "hot" in a variety of languages.
Plains or planitiae are named for Mercury in various languages. Valleys or valles are named for abandoned cities, towns, or settlements of antiquity.
Mercury was heavily bombarded by comets and asteroids during and shortly following its formation 4. Mercury's surface is more heterogeneous than either Mars 's or the Moon 's, both of which contain significant stretches of similar geology, such as maria and plateaus.
Craters on Mercury range in diameter from small bowl-shaped cavities to multi-ringed impact basins hundreds of kilometers across.
They appear in all states of degradation, from relatively fresh rayed craters to highly degraded crater remnants. Mercurian craters differ subtly from lunar craters in that the area blanketed by their ejecta is much smaller, a consequence of Mercury's stronger surface gravity.
At the antipode of the Caloris Basin is a large region of unusual, hilly terrain known as the "Weird Terrain".
One hypothesis for its origin is that shock waves generated during the Caloris impact traveled around Mercury, converging at the basin's antipode degrees away.
The resulting high stresses fractured the surface. Overall, about 15 impact basins have been identified on the imaged part of Mercury.
There are two geologically distinct plains regions on Mercury. Smooth plains are widespread flat areas that fill depressions of various sizes and bear a strong resemblance to the lunar maria.
Notably, they fill a wide ring surrounding the Caloris Basin. Unlike lunar maria, the smooth plains of Mercury have the same albedo as the older inter-crater plains.
Despite a lack of unequivocally volcanic characteristics, the localisation and rounded, lobate shape of these plains strongly support volcanic origins.
It is not clear whether they are volcanic lavas induced by the impact, or a large sheet of impact melt.
One unusual feature of Mercury's surface is the numerous compression folds, or rupes , that crisscross the plains. As Mercury's interior cooled, it contracted and its surface began to deform, creating wrinkle ridges and lobate scarps associated with thrust faults.
The Lunar Reconnaissance Orbiter discovered that similar small thrust faults exist on the Moon. It is thus a " compound volcano ".
Although the daylight temperature at the surface of Mercury is generally extremely high, observations strongly suggest that ice frozen water exists on Mercury.
Mercury is too small and hot for its gravity to retain any significant atmosphere over long periods of time; it does have a tenuous surface-bounded exosphere  containing hydrogen , helium , oxygen , sodium , calcium , potassium and others at a surface pressure of less than approximately 0.
Hydrogen atoms and helium atoms probably come from the solar wind , diffusing into Mercury's magnetosphere before later escaping back into space.
Radioactive decay of elements within Mercury's crust is another source of helium, as well as sodium and potassium.
Water vapor is present, released by a combination of processes such as: comets striking its surface, sputtering creating water out of hydrogen from the solar wind and oxygen from rock, and sublimation from reservoirs of water ice in the permanently shadowed polar craters.
Sodium, potassium and calcium were discovered in the atmosphere during the —s, and are thought to result primarily from the vaporization of surface rock struck by micrometeorite impacts  including presently from Comet Encke.
This would indicate an interaction between the magnetosphere and the planet's surface. Despite its small size and slow day-long rotation, Mercury has a significant, and apparently global, magnetic field.
According to measurements taken by Mariner 10 , it is about 1. The magnetic-field strength at Mercury's equator is about nT.
It is likely that this magnetic field is generated by a dynamo effect, in a manner similar to the magnetic field of Earth. Particularly strong tidal effects caused by the planet's high orbital eccentricity would serve to keep the core in the liquid state necessary for this dynamo effect.
Mercury's magnetic field is strong enough to deflect the solar wind around the planet, creating a magnetosphere.
The planet's magnetosphere, though small enough to fit within Earth,  is strong enough to trap solar wind plasma.
This contributes to the space weathering of the planet's surface. Bursts of energetic particles in the planet's magnetotail indicate a dynamic quality to the planet's magnetosphere.
The spacecraft encountered magnetic "tornadoes" — twisted bundles of magnetic fields connecting the planetary magnetic field to interplanetary space — that were up to km wide or a third of the radius of the planet.
These twisted magnetic flux tubes, technically known as flux transfer events , form open windows in the planet's magnetic shield through which the solar wind may enter and directly impact Mercury's surface via magnetic reconnection  This also occurs in Earth's magnetic field.
Mercury has the most eccentric orbit of all the planets; its eccentricity is 0. It takes The diagram illustrates the effects of the eccentricity, showing Mercury's orbit overlaid with a circular orbit having the same semi-major axis.
Mercury's higher velocity when it is near perihelion is clear from the greater distance it covers in each 5-day interval.
In the diagram the varying distance of Mercury to the Sun is represented by the size of the planet, which is inversely proportional to Mercury's distance from the Sun.
This varying distance to the Sun leads to Mercury's surface being flexed by tidal bulges raised by the Sun that are about 17 times stronger than the Moon's on Earth.
Mercury's orbit is inclined by 7 degrees to the plane of Earth's orbit the ecliptic , as shown in the diagram on the right. As a result, transits of Mercury across the face of the Sun can only occur when the planet is crossing the plane of the ecliptic at the time it lies between Earth and the Sun, which is in May or November.
This occurs about every seven years on average. Mercury's axial tilt is almost zero,  with the best measured value as low as 0. This means that to an observer at Mercury's poles, the center of the Sun never rises more than 2.
At certain points on Mercury's surface, an observer would be able to see the Sun peek up a little more than two-thirds of the way over the horizon, then reverse and set before rising again, all within the same Mercurian day.
Thus, to a hypothetical observer on Mercury, the Sun appears to move in a retrograde direction. Four Earth days after perihelion, the Sun's normal apparent motion resumes.
For the same reason, there are two points on Mercury's equator, degrees apart in longitude , at either of which, around perihelion in alternate Mercurian years once a Mercurian day , the Sun passes overhead, then reverses its apparent motion and passes overhead again, then reverses a second time and passes overhead a third time, taking a total of about 16 Earth-days for this entire process.
In the other alternate Mercurian years, the same thing happens at the other of these two points. The amplitude of the retrograde motion is small, so the overall effect is that, for two or three weeks, the Sun is almost stationary overhead, and is at its most brilliant because Mercury is at perihelion, its closest to the Sun.
This prolonged exposure to the Sun at its brightest makes these two points the hottest places on Mercury.
Maximum temperature occurs when the Sun is at an angle of about 25 degrees past noon due to diurnal temperature lag , at 0. These points, which are the ones on the equator where the apparent retrograde motion of the Sun happens when it is crossing the horizon as described in the preceding paragraph, receive much less solar heat than the first ones described above.
Mercury attains inferior conjunction nearest approach to Earth every Earth days on average,  but this interval can range from days to days due to the planet's eccentric orbit.
Mercury can come as near as This large range arises from the planet's high orbital eccentricity. The longitude convention for Mercury puts the zero of longitude at one of the two hottest points on the surface, as described above.
However, when this area was first visited, by Mariner 10 , this zero meridian was in darkness, so it was impossible to select a feature on the surface to define the exact position of the meridian.
Therefore, a small crater further west was chosen, called Hun Kal , which provides the exact reference point for measuring longitude. A International Astronomical Union resolution suggests that longitudes be measured positively in the westerly direction on Mercury.
For many years it was thought that Mercury was synchronously tidally locked with the Sun, rotating once for each orbit and always keeping the same face directed towards the Sun, in the same way that the same side of the Moon always faces Earth.
Radar observations in proved that the planet has a spin-orbit resonance, rotating three times for every two revolutions around the Sun.
The eccentricity of Mercury's orbit makes this resonance stable—at perihelion, when the solar tide is strongest, the Sun is nearly still in Mercury's sky.
The rare resonant tidal locking is stabilized by the variance of the tidal force along Mercury's eccentric orbit, acting on a permanent dipole component of Mercury's mass distribution.
However, with noticeable eccentricity, like that of Mercury's orbit, the tidal force has a maximum at perihelion and therefore stabilizes resonances, like , enforcing that the planet points its axis of least inertia roughly at the Sun when passing through perihelion.
The original reason astronomers thought it was synchronously locked was that, whenever Mercury was best placed for observation, it was always nearly at the same point in its resonance, hence showing the same face.
This is because, coincidentally, Mercury's rotation period is almost exactly half of its synodic period with respect to Earth. Due to Mercury's spin-orbit resonance, a solar day the length between two meridian transits of the Sun lasts about Earth days.
Simulations indicate that the orbital eccentricity of Mercury varies chaotically from nearly zero circular to more than 0.
In , the French mathematician and astronomer Urbain Le Verrier reported that the slow precession of Mercury's orbit around the Sun could not be completely explained by Newtonian mechanics and perturbations by the known planets.
He suggested, among possible explanations, that another planet or perhaps instead a series of smaller 'corpuscules' might exist in an orbit even closer to the Sun than that of Mercury, to account for this perturbation.
The success of the search for Neptune based on its perturbations of the orbit of Uranus led astronomers to place faith in this possible explanation, and the hypothetical planet was named Vulcan , but no such planet was ever found.
The perihelion precession of Mercury is 5, arcseconds 1. Newtonian mechanics, taking into account all the effects from the other planets, predicts a precession of 5, arcseconds 1.
The effect is small: just Similar, but much smaller, effects exist for other Solar System bodies: 8. Filling in the values gives a result of 0.
This is in close agreement with the accepted value of Mercury's perihelion advance of There may be scientific support, based on studies reported in March , for considering that parts of the planet Mercury may have been habitable , and perhaps that life forms , albeit likely primitive microorganisms , may have existed on the planet.
Mercury can be observed for only a brief period during either morning or evening twilight. Mercury can, like several other planets and the brightest stars, be seen during a total solar eclipse.
Like the Moon and Venus, Mercury exhibits phases as seen from Earth. It is "new" at inferior conjunction and "full" at superior conjunction.
The planet is rendered invisible from Earth on both of these occasions because of its being obscured by the Sun,  except its new phase during a transit.
Mercury is technically brightest as seen from Earth when it is at a full phase. Although Mercury is farthest from Earth when it is full, the greater illuminated area that is visible and the opposition brightness surge more than compensates for the distance.
Nonetheless, the brightest full phase appearance of Mercury is an essentially impossible time for practical observation, because of the extreme proximity of the Sun.
Mercury is best observed at the first and last quarter, although they are phases of lesser brightness. The first and last quarter phases occur at greatest elongation east and west of the Sun, respectively.
At both of these times Mercury's separation from the Sun ranges anywhere from Unlike lunar maria, the smooth plains of Mercury have the same albedo as the older inter-crater plains.
Other factors indicate that this shrinking and geological activity may be present to this day. The volcanic system on Mercury is quite complex, though its exact age is hard to pinpoint but it is speculated to be billions of years old.
Temperatures on the surface of Mercury are both hot and cold. These changes in temperature are the most drastic in the entire Solar System.
Mercury is a terrestrial planet having three main layers: a core, mantle and crust. The iron core has slowly cooled and contracted for about 4.
It is believed that if the effects of the gravitational compression were to be factored out from both Mercury and Earth, Mercury would take the first place as the densest.
This density also indicates that its core is huge and rich in iron. It is too small and hot for its gravity to retain any significant atmosphere over long periods of time.
Thus Mercury does not have an atmosphere, but it does have a thin exosphere. Although ice was not the only possible cause of these reflective regions, astronomers think it was the most likely.
Even if it is small and has a slow day-long rotation, Mercury has a significant and apparently global magnetic field. Anthony statue about his person at all times.
Stone has often been criticized for historical inaccuracy. Using several film formats in a single scene he gives a collage of information for you to make of what you will.
Thus mercury burnt extrovert qualities — becomes rather introvert more. So, combust is a negative in chart.
Childlike But there is also the question of combustion to consider. Playing The Clown Sun conjunct Mercury may have had a hard time getting heard or being taken seriously by authority figures as children and were probably constantly being told to shut up.