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Chapter 35 Implements the Eleventh Dimensional Space Invention IV

The little child Gu Xiaohu was bold this time, and actually wanted to stretch out his real fat little hand to try the metal liquid "hydrogen", but was hit hard by his own RLPL (human servant) crystal to the fat little hand, he immediately understood that this was the little uncle's mind energy field to beat himself, and immediately did not dare to act recklessly, but he still successfully retrieved the metal liquid "hydrogen", because of the RLPL (human servant) crystal, it was able to be successfully retrieved and completely preserved.

Saturn, the seventh largest planet, is the sixth farthest planet from the Sun and the second largest of the eight planets, with an orbital orbit of 1,429,400,000 km (9.54 AU) from the Sun. Satellite diameter: 120,536 km (equatorial). Mass: 5.68e26 kg.

In Roman mythology, Saturn was the name of the god Saturn. Cronus, the god of agriculture in Greek mythology, was the son of Uranus (Uranus) and Caia, and the father of Zeus (Jupiter). Saturn is also the root word for "Saturday" in English.

Saturn was discovered in prehistory. Galileo Galilei first observed it through a telescope in 1610 and recorded its strange trajectory, but was also confused by it. Early observations of Saturn were complicated. This is due to the fact that when Saturn is in its orbit every few years. The Earth is about to pass through the plane where Saturn's rings are located. (Low-resolution images of Saturn, so often radically changed.) It wasn't until 1659 that Huygens correctly deduced the geometry of the halo. By 1977. Saturn's rings have long been thought to be the only ones in the solar system; But in 1977, faint rings were spotted around Uranus, and shortly thereafter around Jupiter and Neptune. A small telescope can also clearly reveal that Saturn is an oblate sphere. The diameter of its equator is about 10% larger than that of its poles (120,536 km at the equator and 108,728 km at the poles), which is the result of its rapid rotation and fluid surface. Other gaseous planets are also oblate spheres, but not as distinct.

Saturn is the loosenest planet, and its specific gravity (0.7) is smaller than that of water. Like Jupiter, Saturn is made up of about 75% hydrogen and 25% helium, as well as a small amount of water. Methane, ammonia and some rock-like substances. These compositions are similar to those of the solar nebulae when they formed the solar system. The interior of Saturn, like Jupiter, consists of a rocky core, a metallic layer of liquid hydrogen, and a layer of hydrogen molecules, as well as small amounts of various types of ice.

Saturn's interior is intensely hot (up to 12,000 Kelvin in its core), and Saturn emits more energy into the universe than it gets from the Sun. Most of the extra energy, like Jupiter, is generated by the Kelvin-Helmholtz principle. But this may not be enough to explain Saturn's ability to emit light, and some other effects may be underway, possibly due to the "flushing" of helium deep inside Saturn.

The distinct bands on Jupiter are much more faint on Saturn and wider near the equator. Its top clouds cannot be seen from the Earth. So it wasn't until the Voyager spacecraft made an accidental observation that people began to study Saturn's atmospheric circulation. Saturn is the same as Jupiter. There are long-period elliptical orbits and other general characteristics. In 1990, the Harbour telescope observed a very large white cloud near Saturn's equator, which was not present when Voyager arrived; In 1994, another smaller storm was observed.

Two distinct halos (A and B) and a dim halo (C) can be seen from Earth, and the gap between the A and B rings is called the "Cassini part". A more dim gap in the outer part of the A-aura is called the "EnckeGap" (but that's a bit of a misnomer, as it may never have been seen by the Encke). The images sent back by the Voyager show four more dim auras. Saturn's rings are different from those of other stars, it is very bright. (Astral albedo 0.2-0.6)

Although the auras are continuous when viewed from Earth, these auras are in fact made up of countless tiny objects in their own independent orbits. They range in size from 1 centimeter to several meters, and it is also possible that some objects with a diameter of several kilometers may be present.

Saturn's rings are particularly thin, and although they are 250,000 kilometers in diameter or larger, they are only 1.5 kilometers thick at most. Despite their impressive and distinct image, there is very little matter in the aura - if the aura is compressed into an object, it can only be 100 kilometers wide at most. The particles in the halo may be composed primarily of ice formed by water, but they can also be rocky particles that are made up of ice enveloping the outer layer.

Voyager confirmed that the puzzling inhomogeneity of the radius did exist in the halo, which was called "spokes", which was first reported by an amateur astronomer. Their natural nature presents us with a mystery, but it gives us a clue to the understanding of Saturn's magnetic field. Saturn's outermost rings, the F rings, are a complex structure of smaller rings, some of which are noticeable in some of its "knots." Scientists speculate that these so-called knots may be lumpy halo matter or miniature moons. These strange textures are evident in the images sent back by Voyager 1, but they are not visible in the images sent back by Voyager 2, possibly due to the fact that the composition of the aura captured by the latter is slightly different from that of the former.

There are complex tidal resonances between Saturn's moons and in the ring system: some moons, the so-called "shepherd moons" (such as Titan, Titan, and Titan) are of obvious importance in maintaining the shape of the ring; Enceladus appears to be responsible for the lack of a substance in the Cassini part, similar to what happened to Kirkwoodgaps in the asteroid belt; Iapetus is in the EnckeGap. The whole system is too complex. We have a poor grasp. The origin of Saturn's (and other Jupiter-like rings) is unknown. Although they may have had an aura since they were formed. But halo systems are unstable, they may be constantly updated as they go, or they can be fragments of larger satellites.

Like other Jupiteroids, Saturn has a magnet region of great significance. In the endless night sky, Saturn is easily visible to the eye. Although it may not be as bright as Jupiter, it is easily recognized as a planet because it does not "twinkle" like a star. The ring, along with its satellites, can be observed through a small amateur astronomical telescope. Mike Harvey's planetary search chart indicates Mercury's position in the sky (and the positions of other planets) at this time, which can be customized in more detail by the astronomical program StarryNight.

Saturn has 18 named moons. More than any other planet. There are also a number of small satellites to be discovered. Of the satellites whose rotational speed is known, all rotate synchronously, with the exception of Titan and Titan. There are three pairs of moons, Enceladus-Titan, Titan-Titan, and Titan-Titan, which have gravitational interactions to maintain a fixed relationship between their orbits. The orbital period of Titan happens to be half that of Titan, and they can be said to be in a 1:2 co-motion relationship, with Enceladus-Titan also having a 1:2 relationship, and Titan-Titan having a 3:4 relationship. In addition to the 18 named satellites, at least a dozen or more have been reported and given provisional names.

The little kid Gu Xiaohu was very well-behaved this time, just circled the rings of Saturn twice, and was on the largest planets of Saturn, the north and south poles of Saturn, and the equator. I took the ice and rock samples and left in a hurry, obviously feeling that it was too long. It should have been returned in time.

Uranus, the eighth planet, is the seventh farthest planet from the Sun in the Solar System and the third largest planet in the Solar System in terms of diameter. Uranus is larger in size than Neptune and smaller in mass. Its orbit: 2,870,990,000 km (19.218 AU) from the Sun. Planet diameter: 51,118 km (equatorial). Mass: 8.683e25 kg.

Read Uranus's name in English and be careful when pronouncing it, otherwise it may put the person in an embarrassing situation. Uranus should be pronounced 'YOORanus', not 'youranus' (your anus) or 'urineus' (peeing on us). Ouranos is the god of the universe in ancient Greek mythology and is the earliest supreme god. He was the son and spouse of Caia and the father of Cronus (Saturn), the Cyclops, and the Titan, the predecessor of the god Olympus.

Uranus was created by William? Herschel systematically searched through a telescope and discovered on March 13, 1781, the first planet discovered in modern times. In fact, it has been observed many times, but at the time it was mistaken for another star (it was observed by John Flamsteed as early as 1690, but it was numbered 34 Tauri at the time). Herschel named it 'theGeorgium Sidus' (Planet of Georgia) in honor of his patron, the notorious King of England to Americans: George III; Others call Uranus "Herschel." Since the names of the other planets are taken from Greek mythology, it was first proposed by Bode to be called "Uranus" (Uranus) for consistency, but it was not until 1850 that it became widely used.

Most planets rotate around an axis almost perpendicular to the ecliptic, but Uranus' axis is almost parallel to the ecliptic. During the time of Voyager 2's exploration, Uranus' south pole was almost directly illuminated by the sun. This peculiar fact suggests that Uranus's polar regions receive more energy from the Sun than its equatorial regions. However, Uranus's equatorial regions are still hotter than polar regions. The reason for this is unknown.

And it either rotates forward at an angle of rotation greater than 90 degrees, or reverses at an angle of inclination less than 90 degrees. The problem is that you have to draw a dividing line somewhere, because there is some controversy, for example, about whether Venus is really rotating in the opposite direction (not in a forward direction with an inclination close to 180 degrees).

Uranus is basically made up of rocks and a variety of ice, and it contains only 15% hydrogen and some helium (less than Jupiter and Saturn, which are mostly made up of hydrogen). Uranus and Neptune resemble Jupiter's and Saturn's cores in many ways, stripped of their huge liquid metallic hydrogen shells. Although the inner core of Uranus is not made up of rocks like Jupiter and Saturn. But their material distribution is almost identical.

Uranus' atmosphere contains about 83% hydrogen. 15% helium and 2% methane. Like all other gaseous planets. Uranus also has banded clouds that flutter rapidly around it. But they are so faint that they can only be seen from the processed images of Voyager 2. Recent observations by the Harbour telescope have shown larger and more pronounced streaks. Presumably, this difference is mainly due to the effects of the seasons (the direct rays of the Sun to some of the lower latitudes of Uranus may cause a pronounced day and night effect).

Uranus's blue appearance is the result of methane in its outer atmosphere absorbing red light. There may be ribbons like Jupiter's, but they are obscured by the methane layer that covers them. Like every other gas planet, Uranus has rings. They are as faint as Jupiter's rings, but like Saturn's rings, they are made up of fairly large particles up to 10 meters in diameter and fine dust. Uranus has 11 known rings, but all of them are very faint; The brightest one is called the Epsilon Aura. Uranus's rings were the first to be discovered after Saturn, a discovery that is considered very important. From this we know that rings are a universal feature of planets, and not just specific to Saturn.

When it comes to the axis of Uranus, it is also worth mentioning that its magnetic field is also very peculiar, it is not in the center of the planet, but is tilted by nearly 60 degrees. This may be due to movement in the deeper depths of Uranus' interior.

Sometimes Uranus is faintly visible to the naked eye on a clear night sky, but if you know where it is, it's easy to see through binoculars. A small disc can be seen through a small astronomical telescope. Mike? Harvey's planetary search chart shows the position of Uranus and other planets in the sky. More and more details, better and better charts will be discovered and completed by astronomical programs such as brilliant galaxies.

Uranus has 15 named moons and 2 discovered but not yet named moons. Unlike other celestial bodies in the solar system. The moons of Uranus are not named after characters from ancient mythology, but after characters from the works of Shakespeare and the Pope. They naturally split into two groups: 10 faint small moons near Uranus discovered by Voyager 2 and 5 large moons in outer space. They all have a circular orbit around Uranus' equator (and therefore have a larger angle relative to the equatorial plane).

The little child Gu Xiaohu is still very well-behaved this time. Just circled Uranus twice, and took ice samples and rock samples on Uranus's largest planets, Uranus's north and south poles, and the equator, and left in a hurry, but it can be seen that although the little child Gu Xiaohu is naughty, he is as careful as a hair, and he has always used his own RLPL (human servant) crystal camera to photograph.

Pluto, the ninth planet, is the largest planet in the solar system, and was called the ninth planet along with the other eight planets before 2006, but the 2006 astronomical congress has downgraded it to a dwarf planet. Pluto is a dwarf planet with an orbit that deviates from the plane of the solar system. Pluto was discovered in 1930. Its English name (Pluto) means god of the underworld. Orbital parameters: average radius 5.91352×10^9km (39.956 AU), eccentricity 0.24901, orbital period 248 years, 197 days and 5.5 hours, rendezvous period 366.74 days, average orbital speed 4.7490km/s, orbital inclination 17.1449°, perihelion 4,436,824,613 km (29.65834067 AU), aphelion 7, 375,927,931 km (49.30503287 AU) with one revolution: 248 years.

Pluto's orbital period is 248 Earth years. Its orbit is distinctly different from that of other planets, following a nearly circular orbit, with only a narrow part close to the planes of other planets called the ecliptic. In comparison. Pluto's orbit is highly inclined (more than 17°). It also has a high eccentricity (oval shape). Such a high eccentricity means that it is located in certain areas. Pluto will be closer to the Sun than Neptune. On September 5, 1989, the center of mass of Pluto-Charon reached perihelion, and between February 7, 1979 and February 11, 1999, it was closer to the Sun than Neptune. During this time, the closest distance between Pluto and Neptune is 27.960 AU.

In the long run, Pluto's orbit is actually chaotic. Although computer simulations can predict positions for millions of years (forward and backward in time), calculations of 10 million to 20 million years long beyond Lyapunov time are impractical: Pluto has an extremely unpredictable factor, and the unmeasurability of the solar system that is sensitive to minute details. will gradually destroy its orbit. Millions of years from now, Pluto could be at aphelion, perihelion, or anywhere else, and we can't predict it. However, this does not mean that Pluto's orbit itself is unstable, but that its current position in orbit makes it impossible to predict and determine its future position in advance. Some resonances and other kinetic effects keep Pluto's orbit stable and safe from planetary collisions or scattering

Pluto is probably mostly composed of ice and has a small nucleus of iron-nickel rocks, and the diagram on the right shows a schematic representation of Pluto's structure, although more observational data is still needed. The stellar eclipse of Pluto shows that Pluto also has a very thin atmosphere. Because when the star is obscured by Pluto. The light of the star does not disappear immediately, but gradually decreases in brightness. From the reduced brightness, Pluto's atmosphere is divided into a transparent upper atmosphere and a rather opaque lower atmosphere. According to the results of spectral observations, it was found that Pluto was covered with ice or frost of methane. Karen is covered with frost of water. So Pluto's reflection energy is quite large, about 50%. Due to the distance from the Sun, the Sun has become like a bright star when viewed from Pluto, making the surface of Pluto very cold due to the lack of heat radiation, with temperatures ranging from -240 to 220 degrees.

Pluto is rather faint and far away, so there are no clear surface photos yet. To explore the true face of Pluto, you can only know by launching a probe spacecraft to approach Pluto. Pluto can be described as the most unknown "planet", although it has only been found for more than 60 years, plus it is small and far away, it is the most ambiguous of the large planets in the 20th century in 70 years, and the generation and 80s are the golden age of space exploration in the solar system, 8 of the nine planets have been explored by interplanetary probes, and only Pluto is a dead angle that the spacecraft has not set foot in. In the list of planetary parameters given in various astronomical journals, Pluto's column leaves the most blanks, and even if many of the data listed, it is marked with a question mark to indicate inaccuracy. In addition to a long list of unknowns, there are also doubts about Pluto's identity. Pluto's diameter and mass are the smallest among the planets, with a density of 1.8~2.1 grams per cubic centimeter and an albedo of 50%~60%, which is very similar to several large moons of outer planets. Or a large asteroid? However, whatever it is, as an object on the distant edge of the solar system, its mystery has a great attraction for astronomers, and it is believed that in the near future, with the development of exploration techniques, Pluto will become a hot topic in planetary astronomy.

It was this trip to the nine planets of the little child Gu Xiaohu that provided first-hand information for the blue planet and the two major spaces to use RLPL (human servants) to combine crystals and carry out space exploration, creating a number of precedents that could not be done by an predecessor. The little child Gu Xiaohu was still unsatisfied, and he immediately became entangled with the Supreme King of the Black Gold Space, and wanted to go to the Black Gold Space with the Supreme King of the Black Gold Space. Gu Xiaolong stopped the little child Gu Xiaohu's nonsense in time, and continued to arrange for the members of the puppet space special operations team to build each person's RLPL (Human Servant) Crystal.

After the division of labor and cooperation, all the members of the martial arts group of the puppet space special operations group were assisted by Gu Xiaolong, and the members of the special function group of the puppet space special operations group were all assisted by Buddha Muni, and it only took two or three hours for all the members of the RLPL (human servant) crystal to be built.

But when it came to the last member of the puppet space special operations team, a very embarrassing scene happened. That is, the new member of the even space special operations team, the little junior sister of Xiaolongnu Bingxue, Shui Rou, this little junior sister Shui Rou is really as good as her name, whether it is her face or figure, she is worthy of her name "Shui Rou". The whole facial features are delicate and soft, only with a sexy lip and a pair of angry Danfeng eyes. The figure is even more concave and convex, the thin and the convex is convex, that is, more fat and less thin.

Its figure can be said to be a typical S-shape, with plump breasts like two lively rabbits in their arms, and straight and upturned, straight back and spine sunken, willow waist and grip, round buttocks delicate and delicate, with slender long legs, it is simply the flower concubine Zhao Feiyan: after Emperor Cheng of the Han Dynasty, "Chu waist is slender and light in the palm"; Yang Yuhuan, the god of flowers: the shameful flower of the four beauties, looking back and smiling, the six palaces have no color; Flower Concubine Mink Zen: The Closure of the Four Beauties; Flower Demon Daji: Princess Shang, a thousand-year-old fox; Flower Demon Praise: In order to laugh at Bo, the princes of the beacon fire play, and the Western Zhou Dynasty died as a result; Flower Essence Sister Xi: Emperor Xia's concubine, a woman who subverted the first historical dynasty in China. It not only has the richness of the jade ring of the god of flowers, but also has the plump figure of the flower concubine Zhao Feiyan; It not only has the beauty of the flower concubine mink Zen closed moon shy flower, but also has the thousand-year-old fox charm of the flower demon Daji; It has both the flower devil and the cold and glamorous like ice; It also has the charm of the flower girl who likes to be angry.

Gu Xiaolong frowned and looked at this new member, there was always a feeling of indescribability in his heart, and he turned back to Xiaolongnu Bingxue and said: "She is your little junior sister and your student, so you will assist Shui Rou in building her RLPL (Human Servant) Crystal, if you don't have enough skills, please ask Gu Mu Dao Master to help, okay?" "Actually, since the general manager of Blue Planet C talked to Xiaolongnu Bingxue, Xiaolongnu Bingxue has had a strange feeling, and the little junior sister Shui Rou I see today is simply the same as the previous junior sister in the sky and on the ground, completely two different people, the previous little junior sister Shui Rou is a young autistic narcissistic and self-pitying little girl, how can there be such a sexy and mature and bewitching fox as I see today. Moreover, there is still an extremely evil temperament and aura in his bones, and all the men present, especially young men with strong blood such as Brigadier General James and Riyu in Country M, have long been swept around with a pair of eyes, and they have not taken away from her bumpy body for a moment.

However, Gu Xiaolong's arrangement was exactly what he wanted, and from the woman's heart, he was very reluctant to have the slightest contact between his sweetheart and this kind of woman, so he immediately stepped forward and fully assisted this little junior sister in building her own RLPL (Human Servant) Crystal. So far, the RLPL (Human Servant) crystal synthesis of all the members of the Puppet Space Special Operations Team has been successfully built, and the rest is to rely on their own experience to use it. (To be continued......)