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  • evert aether-physics und -philosophy
    relevant statements 02 01 Basis and Objectives Starting basis and content of this part 02 02 No Shockwaves Within the aether there are no logitudinal waves 02 03 No Crosswaves Within the aether there are no transversal waves 02 04 No Circle Straight Line Torus Neither circled nor straight nor outside inward movements are possible within the aether 02 05 No Standing Waves Prerequisites rarely exist in space 02 06

    Original URL path: http://www.evert.de/ap02e.htm (2016-02-09)
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  • evert aether-physics and -philosophy
    explanation of central swinging areas 03 05 Circulating Waves Swinging movement of the nucleus demands a swinging by right angles in shape of a circulating wave If one knows the finally simple solution these analyses were much too complicated 03 06 Tumbling Axis Aether volumes are to exchange via poles in shape of swinging longitudinal axis At last it s a complete swinging within the sphere 03 07 Bending and

    Original URL path: http://www.evert.de/ap03e.htm (2016-02-09)
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  • evert aether-physics and -philosophy
    temporary nature sciences and alternative motion processes of light 04 01 Subject Aims for this fourth part Feedback at the presentation of the gapless aether 04 02 Space Time Quantum Zero Point Energy Demarcation of terms of Relativity and Quantum Theories How famous physicists criticize their sciences How to overcome the present blockade 04 03 Light Ether Propagation of light demands a medium Within a medium more or less polluted

    Original URL path: http://www.evert.de/ap04e.htm (2016-02-09)
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  • evert aether-physics and -philosophy
    results uneven motion processes 08 09 All Pressure Free Aether affects concentrating and conserving for units of Bounded Aether 08 10 Milky Way and Sun System Free Aether also compresses galaxies resulting spiral arms and contrary turning vortices 08 11 Sun System and Sun Movements of ecliptic drive of planets 08 12 Rosette Tracks at Sphere Shells Motion pattern at shell shaped surfaces basics for following chapters 08 13 Aether Model of Atoms Design of atoms shells and nucleus atomic forces mass and inertia new world view 08 14 Faces Pipes Membranes Additional and most important motion pattern of aether for building flat and spatial objects 08 15 Normal and paranormal Appearances Flash and solar wind megalith technology ufo material and drive gravity and levitation biologic membranes and live energy mental body and chakras soul and mind subconscious and stomach feeling 08 16 Nature of Gravity and Structure of Earth Every celestial body has an individual gravity affecting only within its near environment with varying strength The aether between atoms determines structural layers of the earth and these again result e g the temperatures and heat radiation 08 17 Whirlpool of Earth Moon and tides earthly magnetfield and final approve

    Original URL path: http://www.evert.de/ap08e.htm (2016-02-09)
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  • evert aether-physics and -philosophy
    induction DC generator motor new charge generator 09 08 Unipolar Generator Faraday generator induction laws and violation energy constant and violation effective current generator 09 09 Railgun and Ballbearing Effects Cause of unusual acceleration heated up aether swinging 09 10 Ballbearing Motor Generator A simple ball bearing construction swirls up the aether so charge is piled up to high voltage 09 11 Crop Circle Generator Interpretation of crop circles as

    Original URL path: http://www.evert.de/ap09e.htm (2016-02-09)
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  • evert fluid-technology
    motions straight line and constant speed are assumed However not all particles show exact same speed but only similar speeds by bell shaped spreading It s also assumed particles of gases show no attracting nor rejecting affects besides polarized particles e g the mixture of gases H2 and O resulting a liquid state As here the movements are reduced to horizontal and vertical directions it seams the atoms would not come far ahead At reality all atoms move into chaotic directions and inevitably results the possibility for some atoms to move unbelievably fast far ahead within the space see below Emptiness within Gases Picture 05 01 04 at A shows some more realistic relations concerning chaotic directions into which the atoms are moving this very moment Completely unrealistic however still is the density of atoms the relation between atom diameters and total area drawn here Real relations are not to show at paper or screen but following example might give good idea Nordic Walking is up to date and thus many health conscious walkers assemble at vast plane As pure nature is boring an event is arranged all members spread out at a field and on command everyone starts walking into directions as they like it however all times straight ahead Score surface is one square meter and at each hitting partners exchange their directions The aim of that event is however events became an end in themselves Anyway some walkers meet a colleague already some few steps later other walkers collide finally after some hundred meters or even later The aim of this comparison is to demonstrate the emptiness of gases At normal conditions atoms move one thousand times their diameters straight ahead until next collion As score surface here is defined by one square meter the walkers on average would have to walk one kilometre until meeting next parner and probably no series of that boring event would come up and it s rather hard to understand why gas particles don t stop their stupid racing through the void Known Thermodynamics Picture 05 01 04 at B schematic shows increased heat in comparison with A Atoms move some faster thus they are hitting stronger at the walls and resulting some heavier trembling Opposite if the walls are warmed up naturally the gas becomes heated correspondingly inevitably every heat flows from warm to cold like generally known resulting increased entropy Right side at C now the available space for given number of atoms is reduced The atoms thus hit early and quite frequent onto the walls resulting increased pressure At previous piston engine the available volume is reduced when the piston moves into the cylinder That moving wall rejects the atoms faster and the heat increases same time So I used simple examples in order to demonstrate the reality of nearby empty gases because atom diameters of 10 10 and distances of 10 7 hardly can produce a real imagination These facts are well known for long times specialists

    Original URL path: http://www.evert.de/ap0501e.htm (2016-02-09)
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  • evert fluid-technology
    dark red The particles fall into the relative empty area by parts also through that area Opposite the area of low density expands radial At this picture at B a relative empty area is positioned aside of a wall grey line below The particles fall into that empty space also towards the wall and are rejected This happens also at the area already thinned out light red alongside of the wall At these cases rejected particles leave behind some free space into which however from side of wall no other particles follow So that empty area indeed is filled up rather slowly At the other hand these free rooms of thin density alongside of a wall allow relative constant flows suction alongside walls pulls stronger and opposite thin areas spread much wider alongside walls At this picture at C well known example of this effect is shown a flow conform shaped body blue This body can be stationary within a flow or can move through stationary fluid At any case this body displaces fluid at its most wide diameter and further back comes up an area of relative less density marked light This area is filled up and same time renewed again The area of relative emptiness wanders through space when body is moving or wanders relative to the flow if the body is stationary within the flow so contrary to flight or flow direction As mentioned upside the area of low density light red spreads alongside the walls of the body finally reaching far ahead of the nose Small resistance of flow conform bodies is based on these effects as in front of the body autonomously and steady comes up relative emptiness and alongside of the walls exists relative likely flow The suction area at the rear end does not affect by attraction however allows particles to fall into that area by their molecular speed not only at the end of the body but already much far in front within that area thinned off a well known process The speed of flows alongside walls is faster than further outside Such differences of speeds produce special results a second shape of suction effect discussed at the following Speed The speed of sound is common for us e g when counting the seconds between flash and thunder calculating three seconds per kilometer The particles of air however move much faster need only two seconds per kilometer At picture 05 02 06 diverse speeds are shown schematic The red line at A represents the molecular speed of air somewhere in the region of 500 m s respective 1 500 km h The length of the blue line at B represents the speed of sound with some 300 m s resp 1 000 km h The red zigzag line shows the sound won t move straight ahead but wanders forward by deviations A storm or hurricane are called wind speeds which are only one tenth of e g 30 m s or 100 km h grey line at C The particles of air move at tracks much longer into diverse directions much more all over the space than ahead Even once more longer are the deviations at technical applications of gases where the speeds mostly are some few m s or km h black line at D Potential Movements At this picture at E a resting particle red point is drawn After a collision and after one time unit it will be positioned somewhere at the circle sketched Aside of some of the possible radial tracks are drawn At previous considerations were observed only the movements showing into horizontal and vertical directions If now all particles and their molecular movements are overlaid by a general forward movement here from left to right side corresponding figures at F are representative By total view the backward showing movements are shorter and the movements into direction of flow are longer The movement into cross directions now show some ahead All potential positions after a collision at this circle are shifted little bit ahead Here however this shifting is overdrawn would correspond to sound fast hurricane which only local might achieve the maximum speeds nearby 300 km h Static dynamic Pressure At this picture at G schematic is sketched by black arrows at resting gases exists the static pressure likely towards all sides e g measured when particles are rejected at the face of a pressure sensor At H is sketched a particle generally moving towards right side so the sideward motions no longer hit right angles at wall so cross to the general flow direction now exists only a reduced static pressure Corresponding stronger is the dynamic pressure into flow direction marked by arrows of different lengths at H The faster general movement ahead is the more directions sideward are shifted to directions ahead and correspondingly static pressure becomes dynamic pressure At this picture at I previous extreme fast movement is drawn once more with its very reduced static pressure and most strong dynamic pressure These relations of pressures mainly are discussed and calculated by formula of fluid sciences However I am more interested in real movement processes and its representative motion pattern e g if flows of different speeds run aside each other Diagonal Interactions At picture 05 02 07 at A previous schematic figures of potential movement directions are shown once more upside of a slow flow light red and below of a fast flow dark red At previous discussions horizontal and vertical movements were taken as representative for the processes Likely representative are motions into diagonal directions thus each showing 45 degree to horizontal or vertical directions If the molecular movements are overlaid by a general flow these diagonal lines are shifted correspondingly forward like sketched at B again for the slow upside and the fast flow below These particles with these potential tracks of motion thus are representative as movement types resp pattern for flows of different speeds So these potential ways are representative for average movements of both flows At C schematic are drawn four collisions at the black points which typically are resulting by previous diagonal movements at the border grey line between both flows Like at any collision both particles exchange directions and speeds This corresponds to previous processes by normal conditions of resting gases or e g if gases are mixed Here practically comes up a mixture of movement compounds of flows running by different speeds These four typical collisions at C occur as both particles move towards each other At row below now are sketched four other meeting situations where both particles move into likely directions The particles schematic are drawn upside and downside of a theoretic border line so no collisions really would occur In reality however both movement types are mixed up at a border area by previous types of collisions so these typical ways of involved particles really will cross mutually Collision at likely Directions At D both ways show back upward so counter the general flow direction and towards the slower flow The below way is shorter so the particle of the fast flow most will run only behind the particle of the slow flow without compelling collision At the other hand both particles fly against the current and thus they are soon pushed ahead both again into likely directions At E also both ways show backward now however down towards the faster flow Again the below way is shorter so well could be rammed by the upside particle at black point marked below Practically occurs a rear end collision and the particle of the faster flow is pushed back faster Both particles still are falling against the general current so resulting delay of fast flow resp pushing it back downward At F the opposite case is sketched as both ways show forward up The below particle flies faster and will hit the upper particle rear end Both particles go on flying into these directions and thus the slow flow is accelerated ahead upward resp the faster flow extents into the slower flow After collisions more or less frontal the particles fly still at chaotic ways Here however at these collisions by similar directions with these rear end collisions the particles still fly nearby each other and commonly into likely directions So besides areas of total mix up with motions cross and fro inevitably come up areas with real crowds of particles flying in shape of dense flows well ordered Without or delayed Return Decisive effect between neighbouring flows of different speeds however is the movement pattern shown at G marked by black lines Both particles fly ahead downward so into general direction and towards the faster flow The upside particle moves slower than the downside particle won t catch up but will fly further on behind Thus a new particle is integrated into the faster flow without any resistance Within fast flow backward showing movements are more rare less collisions occur and particles are less thrown back So the new particle will never come back into the slow flow or only with some delay This particle becomes missing as partner for collisions at its original area A next particle of the slow flow randomly hit into likely direction can follow unhindered the way of previous particle or at least the position of next collision is shifted some ahead downside These movements correspond in total to the processes of suction areas like discussed upside at picture 05 02 02 Also within faster flows naturally exist previous bubbles of relative emptiness like discussed at picture 05 02 01 into which crowds of particles fall at likely tracks These new particles hit rarely frontal towards old particles and thus are rarely pushed back against the general flow Much more collisions there occur rear end so many particles fly nearby next into common direction ahead Bending towards faster Flow That s the reason and process of well known effect neighbouring strings of flows all times are bended towards the faster flow At picture 05 02 07 is sketched a slow flow H besides a faster flow I and diagonal arrows mark the way of previous diagonal movements These new parts leave an emptiness behind here marked as light area J A faster flow affects like suction towards a neighbouring slower flow However there are no particles pulled in but voluntary only these particles enter the fast flow when they are pushed randomly into fitting directions However not only that bending comes up but also previous existing empty bubbles are filled up and that flow now really shows higher density New particles fly with molecular speed into the gaps diagonal ahead so that speed becomes a part of the existing average speed of the fast flow All particles all times fly by molecular speed now however more particles fly in better order ahead so the flow indeed becomes accelerated A faster flow thus affects like suction integrates neighbouring particles into direction diagonal ahead the density increases the flow becomes a better structure and is accelerated These processes can work at its best if flows run alongside a bended wall here marked as black curve Water Jet Pump Analogue respective based on these effects functions any water jet pump like schematic shown at picture 05 02 07 at K and which works naturally also with a gaseous medium The pump performance comes up without corresponding input of energy because the pump must not pull and drag particles inside not possible at all when pumping gases These pumps really are a perpetuum mobile that kind an energetic higher level increased throughput is achieved without energy consumption At these processes occurs no energy transformation and thus all considerations concerning energy constant are totally irrelevant The only process is the vectors of molecular movements are structured into likely directions naturally never completely but only to some higher level of order is organized Also that organizing work mostly needs few efforts or even null energy e g because every bended wall already will do Driving Hurricanes Previous motion types at the border of flows with different speeds are theoretic movement pattern useful for explaning the incredible suction effects and autonomous self acceleration as really every whirlwind obviously demonstrates The starting affect of tropic whirlwinds is the evaporation of water contradicting the laws of thermodynamics as potential differences come up autonomously reducing the entropy The water steam is more light than the air so lift results an interesting effect because autonomously comes up a force with vector contrary to the vector of the original gravity force The starting affect of the whirlwind rotation is the turning of the earth resp the Coriolis Force which is no independent force but only an effect of inertia As common sciences allow no possibilities for Perpetuum Mobile nor self acceleration the obvious acceleration of the rotating vortex is explained by transformation of heat into kinetic energy Some other explanations state the static pressure of environment is transformed into the dynamic energy of flow This might be right in general at the other hand sciences knows well different pressures immediately are balanced like described upside at picture 05 02 01 and the process is finished when pressures got equal So that continuous acceleration is not to explain only by these common ideas The real process exclusively is based on the suction effect of the faster flow onto slower movements of the environment like describes upside at picture 05 02 07 By pure chance some particles of the environment with fitting vectors fall into the faster flow without resistance leaving emptiness at their place of origin so a continuous process comes up There occurs only a steady selection of movement vectors Within the ordered flow more particles can move rather dense into the common direction The integration of the new particles increases the speed and density of the general flow One must be conscious about these relations the air weights just nothing however it becomes remarkable when moving by hurricane speeds The movements of particles by themselves however are ten times faster Even resting air is full of energy however without external effect If however only small parts of othe riginally chaotic movements are ordered likely an enormous force with external affect results without any change concerning the molecular speed thus without any heat being involved Motion and Pressure Picture 05 02 08 upside shows a typical hurricane Below is drawn schematic a cross sectional view which shows the well known movements of air see black arrows The central eye D marked light is some 10 to 40 km wide the air flows downward nice clear weather and nearby no winds exist at the ground of the eye Within a ring C at the border of the eye the air moves upwards vehemently and upside it flows outward marked dark red At this area B marked red exist heavy cloud cover and strong rain The vortex system reaches far out much wider A marked light red where the air moves outward and down so clear and nice weather exists Alongside the ground the air masses move back to centre by increasing tangential directions At E schematic is shown the air pressure at half level of the whirlwind green graph This atmospheric pressure corresponds nearby to the weight of remaining air masses upside Where the air is piled up to most hight between B and A also the most high pressure is measured Totally other results show the measures of pressure near the ground like marked schematic at F blue graph At the outer area A the pressure increases towards inside corresponding to downward movement of air masses there Further inward B the pressure decreases continuously because there the winds run increasing faster towards the centre the static pressure is reduced and corresponding dynamic pressure of flow increases Pressure and Density Phenomenal is the sudden rise of the static pressure at the area of lift C however only downside near the ground Towards upside and towards the centre the pressure decreases again to much lower level This area of exorbitant pressure however is no atmospheric pressure weight of air masses plus minus lifting falling movements of air like at normal low or high pressure areas but it s a result of the high density at this ring shaped area At picture 05 02 09 at A once more this centre of whirlwind is sketched by some larger scale Two areas are accentuated that area of high density E dark red and an area of relative emptiness D light outside of both at downside region of the whirlwind Winds never are total steady flows but a compound of single gusts where the air locally shows most different density and speed That s the macroscopic appearance corresponding to previous discussed empty bubbles resp crowd wise motions of particles of gases Into these bubbles fall gusts fill up previous areas of low density the air masses collide and are rejected into other directions Within free space gusts can fall into such empty rooms from all sides Each gust leaves free space behind into which next gust will fall again If however a gust of wind hits onto the ground the air is rejected upward but no other air masses follow from the ground so again relative empty areas D remain These suction areas near the ground mainly are filled up only from outer areas of the whirlwind That s why most heavy storms are running along the ground into radial resp lastly in tangential directions Order by Walls Actually one should expect the radial flow component should reach totally into the centre and should not stop already at the border of the eye Most explorers reason the rotating air masses move outward based on centrifugal force lastly inertia respective are no longer compressible however centrifugal forces would affect already quite outside against any centripetal motion The particles of air fly chaotic and all

    Original URL path: http://www.evert.de/ap0502e.htm (2016-02-09)
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  • evert fluid-technology
    to its surface are marked by dotted lines The pressures are no longer directed radial but are showing some tangential The ring respective cylinder shaped fluid layers further inside each marked by darker blue thus are driving a twist flow The pressure lines inside meet that kind the fluid can escape only by faster turning motion At previous discussed motion processes of hurricanes or tornados was stated at the beginning a central nucleus of rotation exists which becomes accelerated by the slower moving environment Here however flow into longitudinal direction of pipe at first produces pressure from outside towards centre Finally by that ordered environment pressure diagonal inward lastly results that advantageous potential vortex At a normal resp rigid vortex the particles move at different radius however all times by same angle speed Opposite at the potential vortices the particles inside move faster than particles more outside like marked at B by arrows of different lengths Thus only the potential vortices have internal differences of speeds which are the prerequisite for previous suction effect of fast flows The vortex within a segment pipe thus is initiated from outside resp the wall nevertheless becomes a self accelerating system That vortex pulls particles towards the centre i e inside of that vortex not only exists faster speed but also higher density Opposite near the wall exists less density and thus less resistance by friction comes up Again it s to observe the energy growth at the centre needs no external energy input Only the skilful shape of the wall working purely passive by just normal rejections results that self organizing system Twisted Pipe The segment surfaces some inclined have a positive effect without any doubt as they result the wanted twisted flow in shape of a potential vortex Disadvantageous however are the S shaped bridge parts between the segments Naturally also at their surfaces exists rejection which represents a flow component cross to twist motion That reflection however is not absolutely harmful because the twist flow is not only circling but also a longitudinal motion The particles thus hit onto these surfaces by angles into diagonal directions At the other hand these angles would be more flat if the pipe as a whole is twisted like schematic shown at this picture at C Based on the inclined segments this example shows a twist flow clock wise Into same sense of turning the pipe could be screwed as a whole so these bridge parts no longer show parallel to the longitudinal axis but some diagonal It depends on each application of that pipe system which twist angle shows the best results Advantageous Twist Flow At picture 05 03 04 upside left is shown cross sectional view of round pipe within which twist flow exists again clock wise Fluid flows around at circles inside free and outside along wall Anywhere exist also motion components into direction towards wall for example by angle shown at A This motion is rejected and is not harmful as

    Original URL path: http://www.evert.de/ap0503e.htm (2016-02-09)
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