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Sun/Venus

METALS AND THEIR CORRESPONDENCES — To understand properly the correspondence which exists between metals, we must consider the position of the planets, and notice that Saturn is higher than all, to whom Jupiter succeeds, then Mars, then the Sun, Venus, Mercury, and, lastly, the Moon. The virtues of these planets do not ascend, but descend, and experience teaches that Mars is easily converted into Venus, not Venus into Mars, and so on with the other planets, the Sun, however, excepted, for Sol enters into all, but is never ameliorated by its inferiors. [Pg.340]

In medieval astrology each known planet had a ruler, personified as a god or goddess, and in medieval alchemy, each of the seven planets was associated with a stage of the alchemical opus in the following order Saturn, Jupiter, Mars, Sol (Sun), Venus, Mercury, and Luna. This order begins with what was believed to be the most distant planet from earth and progresses to the nearest. [Pg.97]

Saturn Jupiter Mars Sun Venus Mercury Moon... [Pg.14]

Carbon dioxide s effect on temperature can be illustrated by comparing the temperature on Venus (the second planet from the Sun) to that on Earth. Both planets are warmer than can be explained simply by looking at their distance from the Sun. Venus, whose average temperature is 450°C, is estimated to be 300°G warmer than might be predicted based on its distance from the Sun. Earth, which is almost 26 million miles farther from the Sun, is still about 33°G higher in average temperature (15°C) than the — 18°C predicted. Why is that ... [Pg.131]

Our solar system consists of the Sun, the planets and their moon satellites, asteroids (small planets), comets, and meteorites. The planets are generally divided into two categories Earth-like (terrestrial) planets—Mercury, Venus, Earth, and Mars and Giant planets—Jupiter, Saturn, Uranus, and Neptune. Little is known about Pluto, the most remote planet from Earth. [Pg.444]

The oxygen that reacts with the sulfur dioxide comes from water (H20) that is also present in Venus atmosphere. When the sun s high-energy ultraviolet (UV) rays hit a water molecule, it dissociates (breaks down) into hydrogen and oxygen—the elements that make up water. [Pg.3]

Almost 80% of the sunlight that hits Venus is reflected back into space by the thick clouds surrounding the planet before it ever reaches the surface. Even so, temperatures at the surface of Venus are much hotter than those on Earth. However, this is not because Venus is closer to the Sun than the Earth. Scientists believe that the difference in the temperatures of the two planets is due to a runaway greenhouse effect caused by the large amount of sulfur dioxide in Venus atmosphere. [Pg.4]

Portal page to a series of pages Air, Moon, Jupiter, Fire, Mercury, Saturn, Water, Venus, Sun, Earth, Mars. Also an interesting page "A Christian Mandala - explanation of this mandala and its sources by Robert Ellaby"... [Pg.459]

The idea that microbes could migrate across the universe was supported by scientists with a worldwide reputation, such as H. von Helmholtz, W. Thomson (later Lord Kelvin) and Svante Arrhenius. This hypothesis was still accepted by Arrhenius in the year 1927, when he reported in the Zeitschrift fur Physikalische Chemie on his assumption that thermophilic bacteria could be transported within a few days from Venus (with a calculated surface temperature of 320 K) to the Earth by the radiation pressure of the sun (Arrhenius, 1927). The panspermia hypothesis, which seemed to have disappeared in the intervening decades, was reintroduced in the ideas of Francis Crick (Crick and Orgel, 1973). It still exists in a modified form (see Sect. 11.1.2.4). [Pg.10]

In the region of the terrestrial planets, there may have been several thousand planetesimals of up to several hundred kilometres in diameter. During about ten million years, these united to form the four planets—Mercury, Venus, Earth and Mars—which are close to the sun. Far outside the orbit of the planet Mars, the heavier planets were formed, in particular Jupiter and Saturn, the huge masses of which attracted all the hydrogen and helium around them. Apart from their cores, these planets have a similar composition to that of the sun. Between the planets Mars and Jupiter, there is a large zone which should really contain another planet. It... [Pg.26]

Now, apart from the planets, many meteorites were formed, moving in quite different orbits and of quite different chemical composition. In particular, the so-called C-l meteorites composed of carbonaceous chondrites have a composition of elements much closer to that of the Sun. It is proposed (see for example Harder and also Robert in Further Reading) that many of these meteorites collided with very early Earth and became incorporated in it, so that eventually some 15% of Earth came from this material (see Section 1.11). Other planets such as Mars and the Moon could have had similar histories, but the remote planets and Venus are very different. [Pg.4]

The density estimates in Table 7.1 show a distinction between the structures of the planets, with Mercury, Venus, Earth and Mars all having mean densities consistent with a rocky internal structure. The Earth-like nature of their composition, orbital periods and distance from the Sun enable these to be classified as the terrestrial planets. Jupiter, Saturn and Uranus have very low densities and are simple gas giants, perhaps with a very small rocky core. Neptune and Pluto clearly contain more dense materials, perhaps a mixture of gas, rock and ice. [Pg.197]

AU from the Sun, just outside the orbit of Mars, whereas the inner boundary is determined by the runaway-greenhouse effect as observed on Venus. If the surface temperature were too hot, above 373 K, this would vaporise all water on the surface of the planet. The inner boundary is around 0.85 AU so the habitable zone spans 0.85-1.7 AU for our Sun (Figure 7.7) but the current habitable zone spans 0.85 - 1.3 AU (t — 0) in Figure 7.7. The habitable zone was much larger when the Sun s luminosity was greater, and narrower when the luminosity was smaller. [Pg.204]

Water vapour makes a sizeable contribution, and probably the largest, to radiation trapping and as the temperature increases the water vapour concentration increases. Temperature rises as a result of increased water vapour concentration and hence a mechanism for a positive feedback in the greenhouse effect that might lead to a runaway greenhouse effect. When the vapour pressure for water reaches saturation, condensation occurs and water rains out of the atmosphere this is what happens on Earth and Mars. On Venus, however, the water vapour pressure never saturates and no precipitation occurs and the global warming continues to increase. Thus Venus suffers from extreme temperatures produced by both its proximity to the Sun and the presence of water vapour and carbon dioxide in its atmosphere. [Pg.212]

Like the old royal chariots, the chariot of the solar body has four wheels. Wheel is the root meaning of the Sanskrit word, chakra, used because of the chakras rotating motion. The four chakras that are the wheels of the fiery chariot of the spirit are the Mercury and Venus centers to the front and the Sun and Mars centers to the back. This is the Merkabah which was seen in Ezekial s vision in the Valley of Bones, the omnipresent throne of Adam-Qadmon. The name Merkabah is also given to the Jewish mystical system of the post-Temple period. [Pg.201]

The Sun is Vice-Regent, and is preceded by Grammar, bearing a yellow banner, on which Justice is represented in a golden robe Though Venus seems to cast him into the shade by the gorgeous magnificence... [Pg.61]

In one sense, the creation of alchemy represented a step backward. The Egyptians had known seven metallic elements gold, silver, copper, tin, iron, lead, and mercury, which they associated with the seven planets (Sun, Moon, Mercury, Venus, Mars, Jupiter, and Saturn, respectively). The Greeks, however, failed to recognize them as distinct elements. According to the Aristotelian theory, the metals were mixtures of the traditional four elements. This idea seemed to... [Pg.4]

Sun, gold, Sunday C Moon, silver, Monday Cf Mars, iron, Tuesday Mercury, mercury, Wednesday A Jupiter, tin, Thursday 5 Venus, copper, Friday L Saturn, lead, Saturday... [Pg.297]


See other pages where Sun/Venus is mentioned: [Pg.599]    [Pg.857]    [Pg.77]    [Pg.148]    [Pg.599]    [Pg.857]    [Pg.77]    [Pg.148]    [Pg.20]    [Pg.457]    [Pg.65]    [Pg.358]    [Pg.44]    [Pg.44]    [Pg.4]    [Pg.4]    [Pg.159]    [Pg.194]    [Pg.81]    [Pg.85]    [Pg.18]    [Pg.132]    [Pg.86]    [Pg.47]    [Pg.94]    [Pg.4]    [Pg.15]    [Pg.18]    [Pg.33]    [Pg.349]    [Pg.354]    [Pg.46]    [Pg.376]   
See also in sourсe #XX -- [ Pg.178 ]




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