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| Impressum | Copyright © Klaus Piontzik | |
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| German Version |
13 - The bowl construction of the earth
13.1 - Evaluation of the distances within the earth for n<11
| All values which lie within the earth are picked out from the table
of the distances from the extreme layers (table
in chapter 12.2) for n < 11. In the following table these values are to be found in the left column distance, sorted after size. In the column difference the distances are put down between two layers (their difference). On a distance of 6,355.76 km there exist a total of 62 values. This proves a cut of 102.5 km per value. All distances with a lower difference than the cut value are looked now. As to be seen, one can summarise these distances to areas. The distances which in an area lie, are marked in the table in the same colour. From the distances of an area the average can be determined. This average is to be found in the column centre distance. In the column depth still put down the accompanying distance by the earth surface. It is worth: depth = 6371Km – average distance 6371 Km is the middle earth radius as used in the astronomy and geophysics. |
| Distance | Difference | Centre distance | Depth |
| upper mantle | 6371 | 0 | |
| km | km | km | km |
| 6355,76 | |||
| 69,13 | |||
| 6286,62 | |||
| 84,66 | 6258,40 | 113 | |
| 6201,96 | |||
| 12,72 | |||
| 6189,24 | |||
| 145,53 | |||
| 6043,71 | |||
| 9,24 | 6039,09 | 332 | |
| 6034,47 | |||
| 104,39 | |||
| 5930,07 | |||
| 206,4 | |||
| Distance | Difference | Centre distance | Depth |
| transition zone | 5971 | 400 | |
| km | km | km | km |
| 5723,67 | |||
| 148,31 | |||
| 5575,36 | |||
| 12,72 | 5569,00 | 802 | |
| 5562,64 | |||
| 134,17 | |||
| 5428,47 | |||
| 44,59 | 5406,17 | 965 | |
| 5383,88 | |||
| 137,12 | |||
| Distance | Difference | Centre distance | Depth |
| lower mantle | 5371 | 1000 | |
| km | km | km | km |
| 5246,76 | |||
| 123,12 | |||
| 5123,65 | |||
| 108,90 | |||
| 5014,75 | |||
| 56,19 | 4986,65 | 1384 | |
| 4958,56 | |||
| 4848,00 | |||
| 65,57 | |||
| 4782,43 | |||
| 8,50 | 4771,32 | 1600 | |
| 4773,93 | |||
| 93,03 | |||
| 4680,90 | |||
| 297,58 | |||
| 4383,32 | |||
| 34,43 | 4366,10 | 2005 | |
| 4348,88 | |||
| 214,35 | |||
| 4134,54 | |||
| 62,40 | 4103,34 | 2268 | |
| 4072,14 | |||
| 205,21 | |||
| 3866,94 | |||
| 26,83 | |||
| 3840,11 | |||
| 95,30 | |||
| 3744,81 | 3775,92 | 2595 | |
| 19,05 | |||
| 3725,76 | |||
| 23,77 | |||
| 3702,00 | |||
| 115,16 | |||
| 3586,84 | |||
| 23,02 | |||
| 3563,82 | 3554,95 | 2816 | |
| 49,63 | |||
| 3514,19 | |||
| 140,97 | |||
| Distance | Difference | Centre distance | Depth |
| outer core | 3471 | 2900 | |
| km | km | km | km |
| 3373,22 | |||
| 107,78 | |||
| 3265,43 | |||
| 59,45 | 3235,71 | 3135 | |
| 3205,98 | |||
| 151,97 | |||
| 3054,02 | |||
| 95,52 | |||
| 2958,50 | |||
| 42,63 | |||
| 2915,87 | |||
| 283,23 | |||
| 2632,64 | |||
| 47,55 | 2608,86 | 3762 | |
| 2585,09 | |||
| 111,52 | |||
| 2473,57 | |||
| 140,78 | |||
| 2332,79 | |||
| 33,98 | 2315,80 | 4055 | |
| 2298,81 | |||
| 162,79 | |||
| 2136,02 | |||
| 6,04 | 2133,00 | 4238 | |
| 2129,98 | |||
| 249,72 | |||
| 1880,26 | |||
| 111,12 | |||
| 1769,14 | |||
| 66,12 | |||
| 1703,02 | |||
| 39,92 | |||
| 1663,10 | |||
| 64,78 | 1611,43 | 4760 | |
| 1598,32 | |||
| 97,93 | |||
| 1500,39 | |||
| 65,76 | |||
| 1434,63 | |||
| 275,72 | |||
| Distance | Difference | Centre distance | Depth |
| inner core | 1291 | 5080 | |
| km | km | km | km |
| 1158,91 | |||
| 74,99 | |||
| 1083,92 | 1100,31 | 5271 | |
| 25,82 | |||
| 1058,10 | |||
| 554,39 | |||
| 503,71 | |||
| 76,15 | |||
| 427,56 | |||
| 84,80 | |||
| 342,76 | |||
| 60,19 | |||
| 282,57 | 329,21 | 6042 | |
| 16,34 | |||
| 266,24 | |||
| 8,80 | |||
| 257,44 | |||
| 33,23 | |||
| 224,21 |
| From the table arises: All found averages establish the maximal possible stratification spectrum for n < 11. If one puts down the found averages on a drawing with the bowls of the earth, the following picture 13.1 arises: |
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| Illustration 13.1 - Bowl construction of the earth and magnetic stratifications for n<11 |
| If one looks only at the distance values of the bowl construction and compares this to the next magnetic distance values, there arises the following table: |
| centre distance | Difference-Exactness | |||
| 6371 | upper mantle | |||
| 6355,76 | 15,24 Km - 0,24% | |||
| 6039,09 | 68,01 Km - 1,07% | |||
| 5971 | transition zone | |||
| 5406,17 | 35,17 Km - 0,55% | |||
| 5371 | lower Mantel | |||
| 3554,95 | 83,95 Km - 1,32% | |||
| 3471 | outer core | |||
| 1291 | inner core | |||
| 1100,31 | 190,69 Km - 3% |
13.2 - Evaluation of the distances within the earth for n<17
| In the book a bigger exactness is reached because n, the number of the oscillations, is raised. The evaluation occurs for n <17 |
13.3 - Result
| The following result can be derived from the previous considerations: |
An oscillation structure forms the basis of the bowl construction of the earth This oscillation structure stands in relation to the magnetic oscillation spectrum i.e. the bowl distances, referred to the centre of the earth, are as a subset directly deducible from the magnetic distances |
| Because the bowl
construction is deducible with enough exactness from an
oscillation spectrum, can the purely geologic grounds for
the bowls, by density differences of the concerning
material and the effect of gravity and rotation not be
entire - particularly as none of the concerning geologic
models is able to calculate the bowl distances. Because the bowl construction of the earth stands in relation to the magnetic oscillation spectrum, is a consequence, in connection with the magnetic angle considerations from chapter 4 that all geologic earth models on pure tetrahedron-, octahedron, dodecahedron or icosahedron structure are based, only partial views of the complete oscillation structure explain, cannot be entire so. Also at the geologic level counts that all Platonic bodies are possible as oscillation figures. And with thus the contrary discussion has also become quite simply superfluous between the single polyhedron models. |
| If one takes into
consideration that the material of the earth also
disposes of (para/dia/ferro) magnetic qualities, the
phenomenon of the bowl construction can be explained. At
the beginning of the genesis of earth, with the forming
of the geologic bowls, the magnetic oscillation system
simply served as a crystallisation basis.
And the magnetic layers prefers the borders between two
material phases or seal(write) form(establish). This also
signifies that the magnetic field exist since then the
earth core exist. Is to be found out that more magnetic oscillation layers than bowls exist. Either here the surrounding material is not in resonance with the magnetic layers, or there would have to be in the bowl construction of the earth even farther under bowls. This concerns especially the lower mantle and the outer like inner core. Because certain layers of the earth inside are connected with frequency, so to electromagnetic activities, is a consequence which events or processes are afflicted in certain depths (volcanism, earthquake, plates tectonics) with frequency or electromagnetic signals. Thus a change of the (magnetic) intensity would have to be registered in certain frequency responses as a mirror of the tectonic events. With thus the possibility of the magnetic registration of earthquake, volcanism and plates tectonics exists. The behaviour of many animals before an earthquake would thereby also be explicable. As in chapter 18 demonstrated, order a whole row of animals of a magnetic sense. Because the tectonic tensions produce magnetic correspondences, animals could perceive this and react to it. |
| Furthermore bigger metal
aggregations, but also para- or dia-magnetic materials
would lead, locally to distortion of the intensity of the
(electro)magnetic field or the (electro)magnetic grids. With it the possibility of the magnetic detection from (e.g. metallic) mineral resources exists. And also the possibility of detection from ducked submarines and subterranean bunkers and arrangements. |
| Because certain bowls of
the earth inside are connected with frequencies, so to
electromagnetic activities, an electromagnetic
transmitter system can be constructed with which a
certain bowl, directly with certain frequency is
irradiated and is moved thus into oscillation. This would
permit totally new measuring methods and also new
possibilities for the geophysics. And it would also contain the potential to generate earthquake artificially. Time apart from a military use, a controlled unloading of flat-tectonic tension areas would be possible and thereby a prevention of bigger quakes is realizable. However, here a certain care would be compulsory there one (with the sufficient radiated energy amount) in the most true sense of the word, could shake the very foundations of this planet. |
| The book to the website - The website to
the book at time is the book only in german language available |
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| The Advanced Book: Planetary Systems |
| The theory, which is developed in this book is based on the remake and expansion of an old idea. It was the idea of a central body, preferably in the shape of a ball, formed around or in concentric layers.
Democritus was the first who took this idea with his atomic theory and thereby introduced himself to the atoms as fixed and solid building blocks. Is the atom used as a wave model, that allows to interpret concentric layers as an expression of a spatial radial oscillator so you reach the current orbital model of atoms. Now, this book shows that these oscillatory order structures, described by Laplace’s equation, on earth and their layers are (geologically and atmospherically) implemented. In addition the theory can be applied on concentric systems, which are not spherical but flat, like the solar system with its planets, the rings that have some planets and the moons of planets or also the neighbouring galaxies of the milky way. This principle is applicable on fruits and flowers, such as peach, orange, coconut, dahlia or narcissus. This allows the conclusion that the theory of a central body as a spatial radial oscillator can be applied also to other spherical phenomena such as spherical galactic nebulae, black holes, or even the universe itself. This in turn suggests that the idea of the central body constitutes a general principle of structuring in this universe as a spatial radial oscillator as well as macroscopic, microscopic and sub microscopic. |
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