The Theory of Cold Quantum

1 The Theory of Cold Quantum 2 Participation Certificate 3 Meteorite and the Earth 4 The Jupiter 5 Distribution of Planet Resources In the Solar System 6 The Formation and Change of the Particle 7 The Oxygen of the Solar System  8 General Relativity Theory is Wrong Too 9 Black Material is the Cold Quantum 10 Stellar and Supernova 11 Rotating Question of the Little Space Shuttle 12 The Formation of Gravitation 13 The Black Cap of the Hydrogen Bomb contact us

Distribution of Planet Resources In the Solar System Cao Junfeng Cao Ri Cao Guang Room No.151, No.170 building, Shujiatun, Shenyang China Post Code:110101 Tel: 86-24-89823077 E-mail: coldpr@pub.sy.ln.cn Abstract: Here I'd like to explain the formation, movement and change, the distribution of the materials of the Solar System with the point of view of Cold Quantum. Different gravitation planet is formed by different gravitation materials, the gravitation of metal planet is bigger than the others, it's a little difficult for the Solar Wind to blow it away, so its distance is close to the Sun. While gravitation of gas planet is small, so it can be blow away farther from the Sun by the Solar Wind. Key Words: Cold Quantum Swirl Pool, Density of the Planet, Resource Ⅰ. The Solar System is formed by one of itself explosion of the supernova, powerful explosive force has blown away the sunspot mass of the Sun to a farther place, light gas material was blown away by the Solar Wind to a place far away from the Sun. There is some of time between the formation process of the Solar Swirl Pool and the Planet Swirl Pool, in this period, drop in temperature for the bigger object is slow, so its temperature is higher; While the temperature of small object is lower, when Cold Quantum is flowing to the bigger object, they have accumulated some of small objects on the bigger object, thus, planet was formed, Cold Quantum is pushing the movement of the planets and a Swirl Pool field is formed this way, the Swirl Pool drives closer small objects to move around the planet, this is the satellite. The small planets near the Jupiter were driven by the Swirl Pool of the Jupiter to move around it then they have changed into the satellites of the Jupiter. The small planets which are farther away from the Jupiter Swirl Pool, they are moving around the Sun synchronously, it looks like that these small planets is very near the Jupiter and its satellites, and its size is just like them, but they are not the satellites of the Jupiter, but the small planets moving synchronously with the Jupiter. There are no big but only small mass of objects between the Jupiter and the Mars, so there is no planet here. Ⅱ. What is the size of the Swirl Pool of the Sun and the planet, what we learned from the data that the volume of the atomic field is just 10,000 times of the atomic nucleus, according to this theory, the farthest point of the Solar System is also about 10,000 times away from the Sun, here's distance is about 7 billion km away from the center of the Solar System. There are many comets and electron clouds at the beginning stage of the formation of the Swirl Pool, its speed is slow, the closer to the Sun, the thicker is the density, the bigger is the pressure and the faster is the speed, this is the reason why closer to the Sun, the faster of the speed of the planets driving by the Swirl Pool of the Sun. How big is the Swirl Pool of the planet? The heat of the sunlight is several thousand degrees, planet can flash back the sunlight, Cold Quantum then flows to planet, thus a Swirl Pool which can drive self-rotation of the planet is formed. The average temperature of the planets is only several degrees, in this case, how to calculate the Swirl Pool of the planet? The Swirl Pool formed by the sunlight and heat is about 10,000 times of the Sun, while planet can't radiate the light and heat but only flash back the light and heat, if we make an extraction of a cube root of 10,000 times is same as 100 times, if we use it as the size of the Swirl Pool of the planet is just to be consistent with actual size of the planet. Take an example, radius of the Earth is more than 6,000 km, its 100 times is 600,000 km is reasonable. If small than this distance, then the Moon will run out of the Swirl Pool of the Earth. Because it is the Swirl Pool force which pushes the movement of the Moon to turn round the Earth. If the distance of the Swirl Pool of the Earth is too bigger and it has entered the domain of the Jupiter, that is also unreasonable, 100 times diameter of the planet is just the size of the Swirl Pool of planet. Ⅲ.The density problem of the planet is also the problem of planet gravitation, there is no regular pattern from previous data, such as the distance between the Earth and the Sun is neither close nor far, but its density is the maximum one, what's the reason? That's because a magnetic field has been discovered in the Earth. A big magnetic body exists in the middle of the Earth, it has added gravitation of the density of the Earth, many volcanic eruption shows that the material in the center of the Earth is not big magnetic body but light liquid or gas, all the planets and satellites which have volcanic mountains, its inner center is not solid body with density, most of the materials is gas. What is the density of the Earth? What is the regulation pattern governing formation of the Earth? The previous temperature of the Sun is 6,000 degrees, this number should be divided by the distance between planet and the Sun, in this calculation, density of planet is too small, take some examples, density of the Earth is same as 6,000÷150 million=4 Density of the Jupiter is 0.7, because there are much water in the Jupiter and its satellites, such a density is too small. Another example, whether a basket ball size object in the Earth with 6,000 degrees of temperature can blow a small glass ball to thousands and thousands of kilometers away, Its impossible, it even can't blow the glass ball to several kilometers away, if basket ball has swollen into as big as the Sun, then whether it can push the Solar System away. This time, I have changed my calculation on the density of planet, use radius of the Sun 700,000 km to divide distance between the Sun and planets, density of planet works out by this kind of calculation is reasonable and with some law. Radius of the Sun 700,000 km ÷ distance between the Sun and planet, such as the Earth 70÷15=4.66g density of planet Planet Mercury Venus Earth Mars Jupiter Uranus Neptune Pluto Density 12 6.5 4.7 3.0 0.9 0.24 0.15 0.12 Previousdensity 5.4 5.2 5.5 3.9 1.3 1.3 1.6 2.0 Temperature 325 60 24 -145 -183 -195 -217 From above list, we can see that previous density of the Mercury is 5.4, the Venus is 5.2 theirs density is smaller than the density of the Earth which is 5.5, solid sulfur in the Earth will be changed into gas in the Mercury, some one may draw a conclusion from this that density of the Mercury and the Venus is small or higher temperature of the Mercury and the Venus is because of small density, its still the problem of calculation, another phenomena we may get from above list is the farther distance between the Jupiter and the Sun, and the density is bigger, may be lower temperature is the reason, gas is compressed, whether density is big or there is some problems in the method of calculation, I don't know either how they have drawn such a odd conclusion. I thought the number we get from equation: Radius of the Sun ÷distance between planet and the Sun is the right one. 1. Most of the surface of the Earth was covered by water and the nucleus of the Earth is composed by gas, therefore, the density of the Earth shouldn't be the biggest one among the Planets. Its density shouldn't be bigger than that of the Mercury and the Venus. 2. Density of the Mercury is 12, it's the biggest one, there are more heavy elements in it such as gold and nuclear raw materials. 3. There are more silver, copper and iron in the Venus than in the Earth. 4. Sial of the Mars is little than the Earth, there are more sodium and boron. 5. There are more water and also some gas in the Jupiter, therefore, its density is small than water. 6. There are more heavy gas such as oxygen. 7. There are more carbons in the Uranus and the Neptune. 8. There are more hydrogen in the Pluto. Chemical compound in the gas planets is heavier than other planets, while Chemical compound in the solid planets are lighter, most of the materials existing in the planets are chemical compounds. If you want to look for gold and silver, try to find it out in the planets near the Sun, if you want to look for gaseous fuel, try to find out in the planets farthest to the Sun, this is my train of thought, I don't know neither where is the accumulating place for maximum resources, if your train of thought is all right, then you can find out resources you are looking for. If you are going to look for natural gas in the Mercury, look for gold in the Jupiter and look for gold in the Pluto, certainly you can only find out nothing. Airplane can fly in the sky, fish can swim in the ocean, but if you are going to board an airplane in the ocean and try to catch fish in the sky, then everyone will laugh at you. Because your trains of thought are wrong. Just for reference. May. 30 2004