ÿWPCé ûÿ2­ ZBœÿÿÿÿHP LaserJet 5MP (PCL) ÿÿÿ HP5MP.PRSÿÿÿßxH6X@X@ÓUKÓÐ ÷Ð6Â&ÿ÷ ÐÐÐûÿ2ßç#|7Ð °°°¤ ÐÐ °°Ðü ÐÐ È ÐÓ@Z2-@ÓÃÃÑ#_,ºvP¼P#ÑAppendix P3ÄÄ. ÁàSçSÁÃÃIllustrations for monograph [1e] "Advanced Magnetic Propulsion Systems" (ISBN 0-9597698-9-7)Äă Áà ç Átheir descriptions and filenames with their scansƒ Áà6 ç6 Á(prepared Dr Jan PajÀ_Àk, on 30 November 2000)ƒ ÃÃExplanations:ÄÄ ÁÁ© To all illustrations published in monograph [1e] apply the same copyrights as for the whole monograph [1e]. ÁÁ© Illustrations which in monograph [1e] were marked as a single Figure, in practice can be combined from more then one separate illustrations which were produced with different techniques (e.g. photographs, drawings, etc.) and scans of which are stored in several separate files. ÁÁ© Only some of illustrations for treatise [1e] are unique for this publication. The majority of illustrations from treatise [1e] is also published in the monograph [1/3] (published in the Polish language) which at the moment is the base for all other publications by the author. ÁÁ© Apart from this document, each illustration from monograph [1e] is thoroughly described at the end of chapter to which it belongs, and the symbol (a letter) of which chapter proceeds the number of that illustration. ÁÁ© Computer files which contain scans with illustrations for monograph [1e] are named with symbols which include the following segments: ÁÁÁ` ` ` Á©© subsequent number of a given illustration in monograph [1e] (this number is composed of a latter which symbolises the chapter in which a given illustration is explained or used, and a number which represents the subsequent position of this illustration in a given chapter), ÁÁÁ` ` ` Á©© the location of this illustration on the Figure from monograph [1e] (this location is expressed with the following symbols: h = higher row, l = lower row, l = left position in a given row, m = middle position in a given row, r = right position in a given row), ÁÁÁ` ` ` Á©© full©stop, ÁÁÁ` ` ` Á©© symbol of the monograph (i.e. 1e for monograph [1e], or 1_3 for monograph [1/3]), ÁÁÁ` ` ` Á©© full©stop, ÁÁÁ` ` ` Á©© format of the file containing a given illustration (i.e. symbol "gif" for hand drawings type "linart", and symbol "jpg" for photographs). ÁÁSometimes, after the number of drawing a word "framed" appears. This work means "an illustration surrounded with a separate frame and added to a main illustration". ÁÁIt should be indicated that for Figures which are combined from several separate illustrations and for which individual illustrations are not marked with symbols (a), (b, (c), ... or (1), (2), (3), ... a system of indicating the position of a given illustration is used. This system uses the following symbols: ÁÁÁ` ` ` Áh = high, ÁÁÁ` ` ` Ál = low, ÁÁÁ` ` ` Áhl = high©left, ÁÁÁ` ` ` Áhm = high©middle, ÁÁÁ` ` ` Áhr = high©right, ÁÁÁ` ` ` Áll = low©left, ŒÁÁÁ` ` ` Álm = low©middle, ÁÁÁ` ` ` Álr = low©right. Of course, when the subsequent illustrations are located in the order of their reading, then their location is clearly indicated with the alphabet letters: a, b, c, etc.; or subsequent numbers: 1, 2, 3, etc. In some circumstances, in stead of position on Figure, a view of a given illustration is indicated. This view was marked with a symbol "s" from "side view", or with symbol "t" from "top view". In some cases before the symbol "s" or symbol "t" a digit "1", "2" or "3" can be used. In such cases the digit indicates the generation (thus the marking "3t" indicated the top view of the 3©rd generation). ÁÁ© On the list below each subsequent illustration is listed in a separate row (if a given Figure includes several illustrations, the first row with the general title of this illustration does not include any computer file with a scan); ÁÁ© Symbol & placed in front of some illustrations indicates photographs scanned in colours. ÃÃListÄÄ: Below subsequent illustrations included into the content of monograph [1e] are listed together with filenames which are storing scans of these illustrations. Filenames are given in two columns. The first of these columns, marked as "filename in [1/3]", provides the name of file with this illustration in the list of illustrations published in monograph [1/3] (or in other relevant monograph © if [1/3] does not include this illustration). In turn the columns "filename in [1e]" indicates the name of file with this illustration supplied with the monograph [1e]. Symbol ~ indicates an illustration, or a table, which is very similar, but not identical (e.g. because it is inscribed in a Polish language). ©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©© Fig. No. Description © what is on this illustrationÁÁÁpppÁ© filename in [1/3]ÁxxxÁ© filename in [1e] ©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©©© Part 1: Tab B1. The Periodic Table for propulsion systems.ÁpppÁ~ b1_tab.1_3.gifÁxxxÁ© b1_tab.1e.gif Tab B2. Periodic Table showing power producing devices.~ k1_tab.1_3.gifÁxxxÁ© b2_tab.1e.gif Fig. B1. A side view of the smallest Magnocraft K3 type © f1a.1_3.gifÁ   ÁÁxxxÁ© b1.1e.gif Fig. B2. The Magnocraft above the equator.ÁÁÁpppÁ© f21.1_3.gifÁ   ÁÁxxxÁ© b2.1e.gif Fig. B3. A general view of a star-shaped space ship.ÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© b3.1e.gif Fig. B4. An elementary Telekinetic Effect (P).ÁÁÁpppÁ© c3.2e.gifÁ   ÁÁxxxÁ© b4.1e.gif Fig. B5. The evolution of a technical idea. ÁÁ(a) The aeolipile (Hero z Aleksandrii, 130 BC)ÁpppÁ© k8a.1_3.gifÁ   ÁÁxxxÁ© b5a.1e.gif ÁÁ(b) Steam turbine (C. A. Parsons, 1884)ÁÁÁpppÁ© k8b.1_3.gifÁ   ÁÁxxxÁ© b5b.1e.gif Fig. B6. The operation of the Johnson telekinetic motor.ÁpppÁ© k1.1_3.gifÁ   ÁÁxxxÁ© b6.1e.jpg Fig. B7. A photo of a telekinetic generator "N-Machine".ÁpppÁ© k2.1_3.jpgÁ   ÁÁxxxÁ© b7.1e.jpg Fig. B8. The design and operation of the N-Machine.ÁpppÁ© k3.1_3.gifÁ   ÁÁxxxÁ© b8.1e.gif &Fig. B9. Photograph of the INFLUENZMASCHINE.ÁpppÁ© k4.1_3.jpgÁ   ÁÁxxxÁ© b9.1e.jpg Fig. B10. The operation of the INFLUENZMASCHINE. ÁpppÁ© c8.2e.gifÁ   ÁÁxxxÁ© b10.1e.gif &Fig. D1. Mr Alan Plank with his pump.ÁÀÀÀÁÁÁÁpppÁ© h2.1_3.jpgÁ   ÁÁxxxÁ© d1.1e.jpg Fig. D2. A technique for NO answers in a pendulum.ÁpppÁ© h1.1_3.gifÁ   ÁÁxxxÁ© d2.1e.gif Fig. D3. A technique for YES answers in a pendulum.ÁpppÁ© h1.1_3.gifÁ   ÁÁxxxÁ© d2.1e.gifŒFig. D4. A wedge of the Universe in three-dimensions.ÁpppÁ© h3.1_3.gifÁ   ÁÁxxxÁ© d4.1e.gif Fig. D5. A photo of the "extraction glow" (V-shaped rod)ÁpppÁ© j1.1_3.jpgÁ   ÁÁxxxÁ© d5.1e.jpg Fig. D6. Photo of tables levitated by Eusapia Palladino. ÁÁ(gÀ;Àra) StÀ;ÀÀ™À lewitowany w Londynie w 1903 rokuÁpppÁ© j2h.1_3.gifÁ   ÁÁxxxÁ© d6h.1e.gif ÁÁ(dÀ;ÀÀ™À) Fotografia z ksiÀ_ÀÀÑÀki "Spirits & Spirit Worlds" © j2l.1_3.gifÁ   ÁÁxxxÁ© d6l.1e.gif Fig. D7. Photographs of a table levitated by SORRAT. &ÁÁ(left) The table lifted physicallyÁÀÀÀÁÁÁÁpppÁ© d5l.2e.jpgÁ   ÁÁxxxÁ© d7l.1e.jpg &ÁÁ(right) The table lifted telekineticallyÁÁÁpppÁ© d5r.2e.jpgÁ   ÁÁxxxÁ© d7r.1e.jpg Fig. D8. The temperature drop in the hands of a healer. &ÁÁ(a) Distribution of temperatures at 10:12ÁÁÁpppÁ© j3a.1_3.jpgÁ   ÁÁxxxÁ© d8a.1e.jpg &ÁÁ(b) Distribution of temperatures at 10:14ÁÁÁpppÁ© j3b.1_3.jpgÁ   ÁÁxxxÁ© d8b.1e.jpg &ÁÁ(c) Distribution of temperatures at 10:15ÁÁÁpppÁ© j3c.1_3.jpgÁ   ÁÁxxxÁ© d8c.1e.jpg &Fig. E1. Blenkinsop's engine built in 1811.ÁÁÁpppÁ© o30.1_3.jpgÁ   ÁÁxxxÁ© e1.1e.jpg Part 2: Fig. F1. The evolution of the Oscillatory Chamber.ÁÁÁpppÁ© c1.1_3.gifÁ   ÁÁxxxÁ© f1.1e.gif Fig. F2. The appearance of the Oscillatory ChamberÁpppÁ~ c3.1_3.gifÁxxxÁ© f2.1e.gif Fig. F3. The neutralization of the electro-magnetic forcesÁpppÁ© c4.1_3.gif Á   ÁÁxxxÁ© f3.1e.gif Fig. F4. The "twin-chamber capsule".ÁÀÀÀÁÁÁÁpppÁ© c5.1_3.gifÁ   ÁÁxxxÁ© f4.1e.gif Fig. F5. Appearances of twin-chamber capsules.ÁÁÁpppÁ© c6.1_3.gif Á   ÁÁxxxÁ© f5.1e.gif Fig. F6. Outputs from chambers of twin-chamber capsuleÁpppÁ© c7.1_3.gifÁ   ÁÁxxxÁ© f6.1e.gif Fig. F7. An arrangement called "spider configuration".ÁpppÁ© c9.1_3.gifÁ   ÁÁxxxÁ© f7.1e.gif Fig. F8. The curve of the "interactions in equilibrium"ÁpppÁ~ c12.1_3.gifÁxxxÁ© f8.1e.gif Fig. F9. Experimental station for the Oscillatory Chamber. ÁÁ(a) Working model of the chamber in dakness.ÁpppÁ© c13a.1_3.jpg ÁxxxÁ© f9a.1e.jpg &ÁÁ(b) Photograph of the experimental station.ÁpppÁ© c13b.1_3.jpg ÁxxxÁ© f9b.1e.jpg Fig. F10. The justification for needle-shaped electrodes.ÁpppÁ© c2.1_3.gifÁ   ÁÁxxxÁ© f10.1e.gif Tab. G2. The coupled Magnocraft: K factor versus D/h.ÁpppÁ~ f2_tab.1_3.gifÁxxxÁ© g2_tab.1e.gif Tab. G3. The colours of the SUB system of lampsÁpppÁ~ f3_tab.1_3.gifÁxxxÁ© g3_tab.1e.gif Fig. G1. Tilting the magnetic propulsor.ÁÀÀÀÁÁÁÁpppÁ© f2.1_3.gifÁ   ÁÁxxxÁ© g1.1e.gif Fig. G2. The magnetic propulsion unit of the Magnocraft.ÁpppÁ© f3.1_3.gifÁ   ÁÁxxxÁ© g2.1e.gif Fig. G3. Alternative flight positions: upright and inverted.ÁpppÁ© f4.1_3.gifÁ   ÁÁxxxÁ© g3.1e.gif Fig. G4. The appearance of the Magnocraft type K3.ÁpppÁ© f1b.1_3.gifÁ   ÁÁxxxÁ© g4.1e.gif Fig. G5. The Magnocraft's design and the main features.ÁpppÁ© f5.1_3.gifÁ   ÁÁxxxÁ© g5.1e.gif Fig. G6. Six classes of arrangements of the Magnocraft. ÁÁ#1. Flying complex (cigar©shaped)ÁÀÀÀÁÁÁÁpppÁ© f6_1.1_3.gifÁxxxÁ© g6_1.1e.gif ÁÁ#2. Semi©attached configurationÁÀÀÀÁÁÁÁpppÁ© f6_2.1_3.gifÁxxxÁ© g6_2.1e.gif ÁÁ#3. Detached configurationÁhhhÁÁÀÀÀÁÁÁÁpppÁ© f6_3.1_3.gifÁxxxÁ© g6_3.1e.gif ÁÁ#4. Carrier platformÁÁÁhhhÁÁÀÀÀÁÁÁÁpppÁ© f6_4.1_3.gifÁxxxÁ© g6_4.1e.gif ÁÁ#5. Flying systemsÁÁÁhhhÁÁÀÀÀÁÁÁÁpppÁ© f6_5.1_3.gifÁxxxÁ© g6_5.1e.gif ÁÁ#6. Flying clustersÁÁÁhhhÁÁÀÀÀÁÁÁÁpppÁ© f6_6.1_3.gifÁxxxÁ© g6_6.1e.gifŒFig. G7. A spherical complex of K3 type Magnocraft.ÁpppÁ© f1c.1_3.gifÁ   ÁÁxxxÁ© g7.1e.gif Fig. G8. A stacked cigar of K6 type Magnocraft. ÁÁ(a) Side view od the whole cigarÁÀÀÀÁÁÁÁpppÁ© f7a.1_3.gifÁ   ÁÁxxxÁ© g8a.1e.gif ÁÁ(b) Vertical cross©section of the cigar (propulsors)ÁpppÁ© f7b.1_3.gifÁ   ÁÁxxxÁ© g8b.1e.gif Fig. G9. A double-ended cigar-shaped flying complex.ÁpppÁ© f8_1.1_3.gifÁxxxÁ© g9.1e.gif Fig. G10. Example of a "fir-tree" shaped flying complex. ÁÁ(a) Vertical cross©section showing propulsors.ÁpppÁ© f8_2a.1_3.gifÁxxxÁ© g10a.1e.gif ÁÁ(b) Side view.ÁÁÁhhhÁÁÀÀÀÁÁÁÁpppÁ© f8_2b.1_3.gifÁxxxÁ© g10b.1e.gif Fig. G11. A very simple semi-attached configuration K3.ÁpppÁ© f9a.1_3.gifÁ   ÁÁxxxÁ© g11.1e.gif Fig. G12. A "flying necklace" semi-attached configuration. © f9b.1_3.gifÁ   ÁÁxxxÁ© g12.1e.gif Fig. G13. An example of a K7 detached configuration. ÁÁ(high) External appearence.ÁhhhÁÁÀÀÀÁÁÁÁpppÁ© f10h.1_3.gifÁxxxÁ© g13h.1e.gif ÁÁ(low) Vertical cross©section showing propulsors.ÁpppÁ© f10l.1_3.gifÁ   ÁÁxxxÁ© g13l.1e.gif Fig. G14. An example of a carrier platform.ÁÁÁpppÁ© f11a.1_3.gifÁxxxÁ© g14.1e.gif Fig. G15. The "zig-zag" carrier configuration.ÁÁÁpppÁ© f11b.1_3.gifÁxxxÁ© g15.1e.gif Fig. G16. Examples of flying systems. ÁÁ(a) A single cell made of 16 K3 MagnokraftsÁpppÁ© f12a.1_3.gifÁxxxÁ© g16a.1e.gif ÁÁ(b) Flying system shaped as a "flutes"ÁÁÁpppÁ© f12b.1_3.gifÁxxxÁ© g16b.1e.gif ÁÁ(c) Flying system shaped as a "honeycomb"ÁpppÁ© f12ca.1_3.gifÁxxxÁ© g16c.1e.gif ÁÁ(d) Flying system shaped as a "platform"ÁÁÁpppÁ© f12d.1_3.gifÁxxxÁ© g16d.1e.gif Fig. G17. An example of a flying cluster.ÁÀÀÀÁÁÁÁpppÁ© f13.1_3.gifÁ   ÁÁxxxÁ© g17.1e.gif Fig. G18. Coupling a through a detached configuration.ÁpppÁ© f14_1.1_3.gifÁxxxÁ© g18.1e.gif Fig. G19. Coupling through a semi-attached configuration. © f14_2.1_3.gifÁxxxÁ© g19.1e.gif Fig. G20. Force interactions acting in Magnocraft. ÁpppÁ© f15.1_3.gifÁ   ÁÁxxxÁ© g20.1e.gif Fig. G21. A top view of one cell of the flying system K3.© f16.1_3.gifÁ   ÁÁxxxÁ© g21.1e.gif Fig. G22. The flanges meshing in flying systems. ÁÁ(a) A cigar meshed with a single K3 MagnokraftÁpppÁ© f17a.1_3.gifÁxxxÁ© g22a.1e.gif ÁÁ(b) Two cigar K6 mutually meshed (6 vehicles)ÁpppÁ© f17b.1_3.gifÁxxxÁ© g22b.1e.gif ÁÁ(c) Two cigar K7 mutually meshed (6 vehicles)ÁpppÁ© f17c.1_3.gifÁxxxÁ© g22c.1e.gif Fig. G23. Shape & dimension equations of a Magnocraft.ÁpppÁ© f18.1_3.gifÁ   ÁÁxxxÁ© g23.1e.gif Fig. G24. Side outlines of eight basic types of Magnocraft. ÁÁ(a) Types K3 to K6 with lens©shaped flange: ÁÁÁ` ` ` ÁK3 typeÁÁÁhhhÁÁÀÀÀÁÁÁÁpppÁ© f19a_k3.1_3.gifÁxxxÁ© g24a_k3.1e.gif ÁÁÁ` ` ` ÁK4 typeÁÁÁhhhÁÁÀÀÀÁÁÁÁpppÁ© f19a_k4.1_3.gifÁxxxÁ© g24a_k4.1e.gif ÁÁÁ` ` ` ÁK5 typeÁÁÁhhhÁÁÀÀÀÁÁÁÁpppÁ© f19a_k5.1_3.gifÁxxxÁ© g24a_k5.1e.gif ÁÁÁ` ` ` ÁK6 typeÁÁÁhhhÁÁÀÀÀÁÁÁÁpppÁ© f19a_k6.1_3.gifÁxxxÁ© g24a_k6.1e.gif ÁÁ(b) K7 to K10 with horse©wagon shaped flange: ÁÁÁ` ` ` ÁK7 typeÁÁÁhhhÁÁÀÀÀÁÁÁÁpppÁ© f19b_k7.1_3.gifÁxxxÁ© g24b_k7.1e.gif ÁÁÁ` ` ` ÁK8 typeÁÁÁhhhÁÁÀÀÀÁÁÁÁpppÁ© f19b_k8.1_3.gifÁxxxÁ© g24b_k8.1e.gif ÁÁÁ` ` ` ÁK9 typeÁÁÁhhhÁÁÀÀÀÁÁÁÁpppÁ© f19b_k9.1_3.gifÁxxxÁ© g24b_k9.1e.gif ÁÁÁ` ` ` ÁK10 typeÁÁÁhhhÁÁÀÀÀÁÁÁÁpppÁ© f19b_k10.1_3.gifÁxxxÁ© g24b_k10.1e.gif Fig. G25. Methods of identifying the Magnocraft's type.ÁpppÁ© f20.1_3.gifÁ   ÁÁxxxÁ© g25.1e.gif Fig. G26. The creation of a latitudinal thrust force.ÁpppÁ© f22a.1_3.gifÁxxxÁ© g26.1e.gif Fig. G27. The "rolling sphere rule" for flight direction.ÁpppÁ© f22b.1_3.gifÁxxxÁ© g27.1e.gifŒFig. G28. Rotary torgue against of that magnetic whirl.ÁpppÁ© f23.1_3.gifÁ   ÁÁxxxÁ© g28.1e.gif Fig. G29. The magnetic circuits in a K6 Magnocraft.ÁpppÁ© f24.1_3.gifÁ   ÁÁxxxÁ© g29.1e.gif Fig. G30. The spinning circuits of a K6 type Magnocraft. ÁÁ(a) The vertical cross©section showing propulsorsÁpppÁ© f25a.1_3.gifÁxxxÁ© g30a.1e.gif ÁÁ(b,c) Side view showing magnetic circuitsÁÁÁpppÁ© f25bc.1_3.gifÁxxxÁ© g30bc.1e.gif Fig. G31. Converting field pulses into a magnetic whirl.ÁpppÁ© f26.1_3.gifÁ   ÁÁxxxÁ© g31.1e.gif Fig. G32. An example of the "ionic picture of a whirl".ÁpppÁ© f27.1_3.gifÁ   ÁÁxxxÁ© g32.1e.gif Fig. G33. View of propulsors in a K3 type Magnocraft. ÁÁ(a) The upward view of K3 Magnocraft.ÁÁÁpppÁ© f28a.1_3.gifÁxxxÁ© g33a.1e.gif ÁÁ(b) Side view of the detached configuration.ÁpppÁ© f28b.1_3.gifÁxxxÁ© g33b.1e.gif Fig. G34. Multiple images of glowing magnetic circuits.ÁpppÁ© f29.1_3.gifÁ   ÁÁxxxÁ© g34.1e.gif Fig. G35. The SUB system of positioning lamps.ÁÁÁpppÁ© f30.1_3.gifÁ   ÁÁxxxÁ© g35.1e.gif Fig. G36. Tunnels formed by the Magnocraft.ÁÁÁpppÁ© f31.1_3.gifÁ   ÁÁxxxÁ© g36.1e.gif Fig. G37. A magnetic-lens effect in ascending Magnocraft.© f32.1_3.gifÁ   ÁÁxxxÁ© g37.1e.gif Fig. G38. Shapes of marks left by a single Magnocraft.ÁpppÁ© f33.1_3.gifÁ   ÁÁxxxÁ© g38.1e.gif Fig. G39. Typical marks in hovering close to the ground.ÁpppÁ© f34.1_3.gifÁ   ÁÁxxxÁ© g39.1e.gif Fig. G40. Landings of an inverted Magnocraft.ÁÁÁpppÁ© f35.1_3.gifÁ   ÁÁxxxÁ© g40.1e.gif Fig. G41. Plants swirled by circuits whirling in the air.ÁpppÁ© f36.1_3.gifÁ   ÁÁxxxÁ© g41.1e.gif Fig. G42. Examples of landings by flying systems. ÁÁ(a) Landing of a single cell of flying systemÁpppÁ© f37a.1_3.gifÁxxxÁ© g42a.1e.gif ÁÁ(b) Landing of a "platform" flying systemÁÁÁpppÁ© f37b.1_3.gifÁxxxÁ© g42b.1e.gif ÁÁ(c) Landing of a circular flying systemÁÁÁpppÁ© f37c.1_3.gifÁxxxÁ© g42c.1e.gif Fig. H1. The Magnocraft and personal propulsion system. ÁÁ(a) Magnocraft K3 type in hanging position.ÁpppÁ© e1a.1_3.gif ÁxxxÁ© h1a.1e.gif ÁÁ(b) The propelling system in personal propulsion. ÁpppÁ© e1b.1_3.gif ÁxxxÁ© h1b.1e.gif Fig. H2. The standard personal propulsion garment.ÁpppÁ© e2.1_3.gif Á   ÁÁxxxÁ© h2.1e.gif Fig. H3. Examples of two modifications of personal propulsion. ÁÁ(a) Personal propulsion with a helment and cushion.© e4b.1_3.gifÁ   ÁÁxxxÁ© h3a.1e.gif ÁÁ(b) Personal propulsion with propulsors in epolettes.© e4a.1_3.gifÁ   ÁÁxxxÁ© h3b.1e.gif Fig. H4. External and internal magnetic forces. ÁÁ(a) External forces in personal propulsion.ÁÁÁpppÁ© e3l.1_3.gifÁ   ÁÁxxxÁ© h4a.1e.gif ÁÁ(b) Internal forces in personal propulsion.ÁÁÁpppÁ© e3r.1_3.gif Á   ÁÁxxxÁ© h4b.1e.gif Fig. I1. A Four-Propulsor Magnocraft.ÁÀÀÀÁÁÁÁpppÁ© d1a.1_3.gif ÁxxxÁ© i1.1e.gif Fig. I2. Propulsors of the Four-Propulsor Magnocraft.ÁpppÁ© d1bc.1_3.gif ÁxxxÁ© i2.1e.gif Part 3: Fig. J1. Comparison of the Magnocraft to a UFO.ÁÁÁpppÁ© o1.1_3.jpgÁ   ÁÁxxxÁ© j1.1e.gif ÁÁ(Framed) The appearnence of K3 Magnocraft.ÁpppÁ© o1_framed.1_3.jpgÁxxxÁ© j1_framed.1e.gif Fig. J2. A UFO type K5 by Ralph Ditter over Zanesville.ÁpppÁ© o2a.1_3.jpgÁ   ÁÁxxxÁ© j2.1e.jpg Fig. J3. A UFO taken by George Stock, Passaic.ÁÁÁpppÁ© o2b.1_3.jpgÁ   ÁÁxxxÁ© j3.1e.jpg Fig. J4. A cigar-shaped UFO from above by Inake OsesÁpppÁ© o3.1_3.jpgÁ   ÁÁxxxÁ© j4.1e.jpgŒFig. J5. Frame no. 9 of a K4 UFO by Rudi Nagora. ÁÁ(a) A whole photograph.ÁhhhÁÁÀÀÀÁÁÁÁpppÁ© o4h.1_3.jpgÁ   ÁÁxxxÁ© j5a.1e.jpg ÁÁ(b) The enlargement of the vehicle.ÁÀÀÀÁÁÁÁpppÁ© o4l.1_3.jpgÁ   ÁÁxxxÁ© j5b.1e.jpg Fig. J6. A K8 UFO from Grenoble, France.ÁÀÀÀÁÁÁÁpppÁ© o5.1_3.jpgÁ   ÁÁxxxÁ© j6.1e.jpg Fig. J7. A K9 UFO, Edwards Air Force Base, USA. ÁÁ(a) A whole photograph.ÁhhhÁÁÀÀÀÁÁÁÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© j7a.1e.jpg ÁÁ(b) The enlargement of the vehicle.ÁÀÀÀÁÁÁÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© j7b.1e.jpg Fig. J8. A K10 UFO over Bara de Tijuca, Brazil. ÁÁ(a) A whole photograph.ÁhhhÁÁÀÀÀÁÁÁÁpppÁ© o6a.1_3.jpgÁ   ÁÁxxxÁ© j8a.1e.jpg ÁÁ(b) The enlargement of the vehicle.ÁÀÀÀÁÁÁÁpppÁ© o6b.1_3.jpgÁ   ÁÁxxxÁ© j8b.1e.jpg Fig. J9. The so-called Yorba Linda UFO photograph.ÁpppÁ© o7.1_3.jpgÁ   ÁÁxxxÁ© j9.1e.jpg Fig. J10. The table of UFO shapes by Knut Aasheim.ÁpppÁ~ o8.1_3.jpgÁxxxÁ© j10.1e.jpg Fig. J11. A spherical flying complex of two UFOs type K6. ÁÁ(a) Thorn's photo of a spherical UFO K6 typeÁpppÁ© o9c.1_3.jpgÁ   ÁÁxxxÁ© j11a.1e.jpg ÁÁ(b) Enlargement of a UFO from Thorn's photograph© o9d.1_3.jpgÁ   ÁÁxxxÁ© j11b.1e.jpg ÁÁ(c) Shape of Thorn's UFO in GICOFF reconstruction© o9e.1_3.jpgÁ   ÁÁxxxÁ© j11c.1e.jpg Fig. J12. A photo of a cigar-shaped flying complex of UFOs. ÁÁ(a) Cigar©shaped UFO from Palomar Gardens, 1952© o10a.1_3.jpgÁxxxÁ© j12a.1e.jpg ÁÁ(b) Cigar©shaped UFO from Palermo, Sycili, 1978ÁpppÁ© o10b.1_3.jpgÁxxxÁ© j12b.1e.jpg ÁÁ(c) Cigar UFO above New York, 1950ÁÁÁpppÁ© o10c.1_3.jpgÁxxxÁ© j12c.1e.jpg ÁÁ(d) Enlargement of cigar UFO from New York (c)ÁpppÁ© o10d.1_3.jpgÁxxxÁ© j12d.1e.jpg Fig. J13. Illustrations of UFOs. ÁÁ(a) A UFO by Mrs. Hewison of Wales, UK.ÁÁÁpppÁ© o11a.1_3.jpgÁxxxÁ© j13a.1e.jpg ÁÁ(b) The object of Mrs. W., Tasmania, Australia.ÁpppÁ© o11b.1_3.jpgÁxxxÁ© j13b.1e.jpg Fig. J14. A detached configuration of two K3 UFOs.ÁpppÁ© o12d.1_3.jpgÁxxxÁ© j14.1e.jpg Fig. J15. The so-called Oregon UFO.ÁÀÀÀÁÁÁÁpppÁ© o13a.1_3.jpgÁxxxÁ© j15.1e.jpg Fig. J16. A carrier platform over New Jersey, USA.ÁpppÁ© o14d.1_3.jpgÁxxxÁ© j16.1e.jpg Fig. J17. The location of propulsors in UFOs. ÁÁ(A) Propulsors of a K3 Magnocraft K3 from below© o15a.1_3.gifÁxxxÁ© j17a.1e.gif ÁÁ(B) Propulsors of a K3 UFO from belowÁÁÁpppÁ© o15b.1_3.jpgÁxxxÁ© j17b.1e.jpg Fig. J18. The Motunau Beach UFO, New Zealand.ÁÁÁpppÁ© o16.1_3.jpgÁ   ÁÁxxxÁ© j18.1e.jpg Fig. J19. Upright photo of a propulsor and circuits' fragment © o19d.1_3.jpgÁxxxÁ© j19.1e.jpg Fig. J20. Side photo of magnetic circuits in K6 UFOÁpppÁ© o19c.1_3.jpgÁxxxÁ© j20.1e.jpg Fig. J21. Photos of UFOs with pulsating magnetic field. ÁÁa). Very fast flaying UFO from ChamberlainÁpppÁ© o18_2.1_3.jpgÁxxxÁ© j21a.1e.jpg ÁÁb). Pulsating UFO by Karl Maier dated 1962ÁpppÁ© o18_3.1_3.jpgÁxxxÁ© j21b.1e.jpg Fig. J22. A landed K4 UFO at night in Genui, Italy.ÁpppÁ© o23.1_3.jpgÁ   ÁÁxxxÁ© j22.1e.jpg Fig. J23. Two ionic pictures of a UFO magnetic whirl. ÁÁ(a) A K7 UFO by Mr Paul Trent of McMinnville.ÁpppÁ© o21a.1_3.jpgÁxxxÁ© j23a.1e.jpg ÁÁ(b) A K8 UFO by a pilot over Rouen, France.ÁpppÁ© o21b.1_3.jpgÁxxxÁ© j23b.1e.jpg Fig. J24. An extremely fast UFO by Mrs Edwards B. &ÁÁ(a) The entire frame.ÁÁÁhhhÁÁÀÀÀÁÁÁÁpppÁ© o22a.1_3.jpgÁxxxÁ© j24a.1e.jpg &ÁÁ(b) The blow-up of the flying UFO.ÁÀÀÀÁÁÁÁpppÁ© o22b.1_3.jpgÁxxxÁ© j24b.1e.jpg Fig. J25. A night photo of a UFO over Tulsa, Oklahoma.ÁpppÁ© o24a.1_3.jpgÁxxxÁ© j25.1e.jpgŒ&Fig. J26. A night UFO over Kaikoura, New Zealand.ÁpppÁ© o23.1_3.jpgÁ   ÁÁxxxÁ© j26.1e.jpg Fig. J27. A UFO hidden behind a magnetic lens. ÁÁÁpppÁ© o25.1_3.jpgÁ   ÁÁxxxÁ© j27.1e.jpg &Fig. J28. A K5 UFO at night in the throbbing operation.© o24b.1_3.jpgÁxxxÁ© j28.1e.jpg Fig. J29. A night photo of a K3 UFO with a searchlight.ÁpppÁ© o17.1_3.jpgÁ   ÁÁxxxÁ© j29.1e.jpg Fig. J30. A K7 UFO over San Jose de Valeras (Spain).ÁpppÁ© o26.1_3.jpgÁ   ÁÁxxxÁ© j30.1e.jpg &Fig. J31. Kolour photo of a UFO capsule of 1st gener.ÁpppÁ© s5l.1_3.jpgÁ   ÁÁxxxÁ© j31.1e.jpg Fig. J32. An unjustified claim hoaxing a genuine UFO. ÁÁ(a) An original photograph of K7 UFO, Spain.ÁpppÁ© o28a.1_3.jpgÁxxxÁ© j32a.1e.jpg ÁÁ(b) A computer "undisputed proof" of a hoax.ÁpppÁ© o28b.1_3.jpgÁxxxÁ© j32b.1e.jpg Fig. J33. UFOs by C.R. Hart, Jr. above Lubbock, Texas. ÁÁ(Top) Á` ` ` ÁDisk©shaped vehicles.ÁhhhÁÁÀÀÀÁÁÁÁpppÁ© o27a.1_3.jpgÁxxxÁ© j33a.1e.jpg ÁÁ(Bottom) Shue©shaped UFOs.ÁÀÀÀÁÁÁÁpppÁ© o27b.1_3.jpgÁxxxÁ© j33b.1e.jpg Fig. J34. Deductions by Renato Vesco what they show.ÁpppÁ© o27c.1_3.gifÁxxxÁ© j34.1e.jpg Fig. K1. Mysterious "devil stones" from Poland. ÁÁ(a) The devil stone from ZemanÀAÀw near Milicz.ÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© k1a.1e.jpg ÁÁ(b) The wooden church in Trzebicko near Milicz.ÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© k1b.1e.jpg ÁÁ(c) Devil's footprints from Emilcin, near Lublin.ÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© k1c.1e.jpg ÁÁ(d) The stone footprint in Addingham High Moor.ÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© k1d.1e.jpg Fig. K2. The extraction glow emitted from a "devil stone". ÁÁ(High) In a front viewÁhhhÁÁÀÀÀÁÁÁÁpppÁÁÈÈÈÁ Á   ÁÁxxxÁ© k2h.1e.jpg ÁÁ(Low) In a side viewÁÁÁhhhÁÁÀÀÀÁÁÁÁpppÁ ÁÈÈÈÁÁ   ÁÁxxxÁ© k2l.1e.jpg Fig. K3. The "angel stone" from Stopka near Bydgoszcz. ÁÁ(a) The general view of the stone.ÁÀÀÀÁÁÁÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© k3a.1e.jpg ÁÁ(b) The placement of the photographic material.ÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© k3b.1e.jpg ÁÁ(c) The emission of the extraction glow from the heel.ÁÈÈÈÁÁ   ÁÁxxxÁ© k3c.1e.jpg &Fig. K4. UFOs of 2nd generation with telekinetic propulsors.© t1.1_3.jpgÁxxxÁ© k4.1e.jpg Fig. L1. Detached configuration of two UFOs. ÁÁ(a) External view of a detached configuration ÁpppÁ© s1a.1_3.gifÁ   ÁÁxxxÁ© l1a.1e.gif ÁÁ(b) Vertical cross©section through such a UFOÁpppÁ© s1b.1_3.gifÁ   ÁÁxxxÁ© l1b.1e.gif &ÁÁ(c) A whole photo showing the detached configuration© s1c.1_3.jpgÁxxxÁ© l1c.1e.jpg &ÁÁ(d) Enlargement of the vehicle showing "black bars"© s1d.1_3.jpgÁxxxÁ© l1d.1e.jpg &ÁÁ(e) The same configuration a while laterÁÁÁpppÁ© s1e.1_3.jpgÁ   ÁÁxxxÁ© l1e.1e.jpg Fig. L2. "Black bars" in a UFO. ÁÁ(a) "Black bars" in a spool©shaped UFOÁÁÁpppÁ© s2a.1_3.gifÁ   ÁÁxxxÁ© l2a.1e.gif ÁÁ(b) UFO K3 shaped like a spool, Brazil, 1969ÁpppÁ© s2b.1_3.gifÁ   ÁÁxxxÁ© l2b.1e.gif Fig. L3. A UFO's twin©chamber capsule scorched in grass. © s3.1_3.jpgÁ   ÁÁxxxÁ© l3.1e.jpg Fig. L4. A twin-chamber capsule from an ascending UFO.ÁpppÁ© s4.1_3.gifÁ   ÁÁxxxÁ© l4.1e.gif Fig. L5. Night photo of twin©chamber capsule from a UFO.© s5r.1_3.jpgÁ   ÁÁxxxÁ© l5.1e.jpg Fig. L6. Magnocraft's Oscillatory Chamber seen on a UFO. ÁÁ(left)Á` ` ` ÁThe predicted appearance of a chamberÁpppÁ© s6l.1_3.gifÁ   ÁÁxxxÁ© l6l.1e.gif ÁÁ(right)Á` ` ` ÁObserved appearance of a UFO chamberÁpppÁ© s6r.1_3.gifÁ   ÁÁxxxÁ© l6r.1e.gif Fig. L7. An ancient plan for an Oscillatory Chamber.ÁpppÁ© s7.1_3.gifÁ   ÁÁxxxÁ© l7.1e.gifŒ™Fig. M1. Photographs of two imprints of UFO legs. &ÁÁ(ÃÃUpperÄÄ) The imprint from Maitland of a K5 UFO.ÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© m1h.1e.jpg &ÁÁ(ÃÃLowerÄÄ) One of four K6 imprints from Waikoikoi.ÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© m1l.1e.jpg Fig. M2. A K3 UFO landing with a central scorching. &ÁÁ(ÃÃUpperÄÄ) The landing itself.ÁhhhÁÁÀÀÀÁÁÁÁpppÁ© p1b.1_3.jpgÁ   ÁÁxxxÁ© m2h.1e.jpg &ÁÁ(Lower) Children standing on this landing.ÁÁÁpppÁ© p1b_2.1_3.jpgÁxxxÁ© m2l.1e.jpg Fig. M3. A throbbing mode K5 UFO landing near Maitland. &ÁÁ(ÃÃUpperÄÄ) A close-up photograph of the site.ÁÁÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© m3h.1e.jpg &ÁÁ(ÃÃLowerÄÄ) The site photographed from a distance.ÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© m3l.1e.jpg Fig. M4. UFO landing sites with looping circuits. ÁÁ(ÃÃUpperÄÄ) The UFO landing at Ngatea, New Zealand.ÁÈÈÈÁÁ   ÁÁxxxÁ© m4h.1e.jpg &ÁÁ(ÃÃLowerÄÄ) The UFO landing at Tooligie Hill, Australia.ÁÈÈÈÁÁ   ÁÁxxxÁ© m4l.1e.jpg Fig. M5. Swirled patterns left by hovering UFOs. ÁÁ(ÃÃUpperÄÄ) A landing of George Pedley, Tully, Queensland.ÁÈÈÈÁÁ   ÁÁxxxÁ© m5h.1e.jpg ÁÁ(ÃÃLowerÄÄ) A landing in Nourradons, France.ÁÁÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© m5l.1e.jpg Fig. M6. UFO landings with double rings, New Zealand. &ÁÁ(ÃÃUpperÄÄ) A site by a K6 UFO in Waikoikoi.ÁÁÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© m6h.1e.jpg &ÁÁ(ÃÃLowerÄÄ) A landing by a K6 UFO in Palmerston.ÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© m6l.1e.jpg Fig. M7. Photographs of Genmell's K3 UFO landings. &ÁÁ(Upper) Two concentric ringsÁÀÀÀÁÁÁÁpppÁ© p1a.1_3.jpgÁ   ÁÁxxxÁ© m7h.1e.jpg &ÁÁ(Lower) Elliptical.ÁÁÁhhhÁÁÀÀÀÁÁÁÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© m7l.1e.jpg Fig. M8. Photographs of K4 type UFO landings. &ÁÁ(Upper) Wikoikoi © with a soil sampling.ÁÁÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© m8h.1e.jpg &ÁÁ(Lower) Landings by UFO K4, K6 & K7ÁÁÁpppÁ© p1d.1_3.jpgÁ   ÁÁxxxÁ© m8l.1e.jpg Fig. M9. The landing site produced by a K5 UFO. &ÁÁ(Upper) Palmerston © close up.ÁÀÀÀÁÁÁÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© m9h.1e.jpg &ÁÁ(Lower) A distant view.ÁhhhÁÁÀÀÀÁÁÁÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© m9l.1e.jpg Fig. M10. Landing sites left by UFOs type K7. &ÁÁ(ÃÃUpperÄÄ) On "Shellrock Farm", Weka Pass.ÁÁÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© m10h.1e.jpg &ÁÁ(ÃÃLowerÄÄ) In the Chapman's paddock, Goodwood.ÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© m10l.1e.jpg &Fig. M11. A K8 UFO landing, Glendhu Bay, Wanaka.ÁpppÁ© pajak_k8.5_4.jpgÁxxxÁ© m11.1e.jpg Fig. M12. Examples of landings by UFO flying systems. ÁÁ(a) A single cell of a flying systemÁÀÀÀÁÁÁÁpppÁ© p2a.1_3.gifÁ   ÁÁxxxÁ© m12a.1e.jpg ÁÁ(b) "Four©clover" landing of a cell of such systemÁpppÁ© p2b.1_3.gifÁ   ÁÁxxxÁ© m12b.1e.jpg &ÁÁ(c) An aerial view of a Roxburgh K3 landing ÁpppÁ© p2c.1_3.jpgÁ   ÁÁxxxÁ© m12c.1e.jpg &ÁÁ(d) A closeup of a Roxburgh K3 landingÁÁÁpppÁ© p2d.1_3.jpgÁ   ÁÁxxxÁ© m12d.1e.jpg Fig. M13. An example of a flying cluster's landing. &ÁÁ(ÃÃUpperÄÄ) A photograph from "The Sun", 26/7/90.ÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© m13h.1e.jpg ÁÁ(ÃÃLowerÄÄ) The interpretation of these marks.ÁÁÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© m13l.1e.gif Fig. M14. Examples of permanent UFO landing sites. &ÁÁ(ÃÃUpperÄÄ) The oldest UFO landings noticed around 1920.ÁÈÈÈÁÁ   ÁÁxxxÁ© m14h.1e.jpg &ÁÁ(ÃÃLowerÄÄ) Mushrooms on a UFO landing site.ÁÁÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© m14l.1e.jpg Fig. M15. A pine tree broken by a hovering UFO type K5. &ÁÁ(ÃÃUpperÄÄ) The distant view.ÁhhhÁÁÀÀÀÁÁÁÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© m15h.1e.jpgŒ&ÁÁ(Lower) A close up.ÁÁÁhhhÁÁÀÀÀÁÁÁÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© m15l.1e.jpg &Fig. M16. A double K8 UFO landing Glendhu Bay, Wanaka.ÁÈÈÈÁÁ   ÁÁxxxÁ© m16.1e.jpg &Fig. M17. Tunnel Morona©Santiago, EcuadorÁÁÁpppÁ© p6a.1_3.jpgÁ   ÁÁxxxÁ© m17.1e.jpg Fig. M18. Cocklebiddy Cave, Australia. &ÁÁ(a) Shape of the Cocklebiddy Cave, AustraliaÁpppÁ© p6b.1_3.jpgÁ   ÁÁxxxÁ© m18a.1e.jpg ÁÁ(b) Shape and course of the Cocklebiddy CaveÁpppÁ© p6c.1_3.gifÁ   ÁÁxxxÁ© m18b.1e.gif Fig. M19. The Tapanui crater where UFO exploded in 1178. &ÁÁ(Upper) A distant view of the Tapanui crater.ÁpppÁ© a1.5_4.jpgÁ   ÁÁxxxÁ© m19h.1e.jpg &ÁÁ(Lower) An eastern section of the Tapanui Crater.© p4.1_3.jpgÁ   ÁÁxxxÁ© m19l.1e.jpg Fig. M20. Trees fallen down in the Tapanui explosion. &ÁÁ(a) "Totara" around 200 metres from the crater.ÁpppÁ© c9a.5_4.jpgÁ   ÁÁxxxÁ© m20a.1e.jpg &ÁÁ(b) Trees at the outlet from Mataura river.ÁpppÁ© c9b.5_4.jpgÁ   ÁÁxxxÁ© m20b.1e.jpg &ÁÁ(c) Author by a totara tree at Black Gully Creek.ÁpppÁ© c9c.5_4.jpgÁ   ÁÁxxxÁ© m20c.1e.jpg &ÁÁ(d) Trees sticking out from Black Gully Creek.ÁpppÁ© c9d.5_4.jpgÁ   ÁÁxxxÁ© m20d.1e.jpg Fig. M21. A damage in the South Island of New Zealand.© c7.5_4.gifÁ   ÁÁxxxÁ© m21.1e.jpg Fig. M22. The inner topography of the Tapanui Crater. ÁÁ(High) Overhead sketch of the crater's topography © c2h.5_4.gifÁ   ÁÁxxxÁ© m22h.1e.jpg ÁÁ(Low) Crater's vertical cross©section in N©S direction© c2l.5_4.gifÁ   ÁÁxxxÁ© m22l.1e.jpg Fig. M23. Two aerial photographs of the Tapanui Crater.ÁpppÁ© c1.5_4.gifÁ   ÁÁxxxÁ© m23.1e.jpg Fig. M24. Photographs of a tornado by Mrs Diane Chittock. &ÁÁ(High) Tornado develops the funnel above the crater© c10h.5_4.jpgÁxxxÁ© m24h.1e.jpg &ÁÁ(Low) Fully developed drifting tornadoÁÁÁpppÁ© c10l.5_4.jpgÁxxxÁ© m24l.1e.jpg &Fig. M25. A magnetized metallic piece from Tapanui Crater.© c14.5_4.jpgÁxxxÁ© m25.1e.jpg Fig. M26. "China stones" spread from the Tapanui Crater. &ÁÁ(Upper) A stone with a crater by Black Gully Creek© c13b.5_4.jpgÁxxxÁ© m26h.1e.jpg &ÁÁ(Lower) A stone with leaves inside. ÁÁÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© m26l.1e.jpg Fig. M27. The Siberian Taiga after the Tunguska Explosion. ÁÁ(Upper) From a recent research. ÁÀÀÀÁÁÁÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© m27h.1e.jpg ÁÁ(Lower) From the original old Russian film. ÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© m27l.1e.jpg Fig. M28. Parabolic©bowl craters from underground explosions. ÁÁ(a) Diabolo Crater in Arizona, USA, side viewÁpppÁ© c4a.5_4.jpgÁ   ÁÁxxxÁ© m28a.1e.jpg ÁÁ(b) Diabolo Crater in Arizona, USA, top viewÁpppÁ© c4b.5_4.jpgÁ   ÁÁxxxÁ© m28b.1e.jpg ÁÁ(c) Diabolo Crater in Arizona, USA, angle viewÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© m28c.1e.jpg ÁÁ(d) Axial cross©section of Diabolo CraterÁÁÁpppÁ© c4c.5_4.gifÁ   ÁÁxxxÁ© m28d.1e.jpg Fig. M29. Similarities between the Tunguska and Hiroshima. ÁÁ(a) The "telegraph pole" forest in Tunguska.ÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© m29a.1e.jpg ÁÁ(b) The upright leafless trees in Hiroshima Castle.ÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© m29b.1e.jpg Fig. M30. Similarities between Tapanui and Tunguska.ÁpppÁ© p5.1_3.gifÁ   ÁÁxxxÁ© m30.1e.gif Fig. N1. UFOnauts and their vehicle by S. MasÀ™Àowski.ÁpppÁ© r1.1_3.jpgÁ   ÁÁxxxÁ© n1.1e.jpg ÁÁ(Framed) Appearance of a K3 MagnocraftÁÁÁpppÁ© r1_framed.1_3.gifÁxxxÁ© n1_framed.1e.gif Fig. N2. A UFOnaut with a glowing belt.ÁÀÀÀÁÁÁÁpppÁ© r2.1_3.jpgÁ   ÁÁxxxÁ© n2.1e.jpg Fig. N3. One flash picture of UFOnaut by Jeff Greenhaw.© r3.1_3.jpgÁ   ÁÁxxxÁ© n3.1e.jpg Fig. N4. A UFOnaut calling himself "Ausso".ÁÁÁpppÁ© r4.1_3.gifÁ   ÁÁxxxÁ© n4.1e.gifŒFig. N5. A UFOnaut climbing a wall.ÁÀÀÀÁÁÁÁpppÁ© r5.1_3.gifÁ   ÁÁxxxÁ© n5.1e.gif Fig. N6. Footprint of an UFOnaut.ÁhhhÁÁÀÀÀÁÁÁÁpppÁ© r6.1_3.jpgÁ   ÁÁxxxÁ© n6.1e.jpg Fig. O1. A four-propulsor UFO which abducted Jan Wolski.© q1.1_3.gifÁ   ÁÁxxxÁ© o1.1e.gif Fig. O2. The night appearance of a four-propulsor UFO. ÁÁ(a) Witnesse's oryginal sketch of the UFOÁÁÁpppÁ© q2a.1_3.gifÁ   ÁÁxxxÁ© o2a.1e.gif ÁÁ(b) Author's rekonstruction of this UFOÁÁÁpppÁ© q2b.1_3.gifÁ   ÁÁxxxÁ© o2b.1e.gif &Fig. O3. A photograph of a four-propulsor UFO. ÁÁÁpppÁ© q1.1_3.jpgÁ   ÁÁxxxÁ© o3.1e.jpg Fig. P1. A reduced model of the K3 type Magnocraft.ÁpppÁÁÈÈÈÁÁ   ÁÁxxxÁ© p1.1e.gif Fig. P2. A geometrical model of the K6 type Magnocraft.ÁÈÈÈÁÁ   ÁÁxxxÁ© p2.1e.gif Passport photograph of the autor ("About the autor")ÁpppÁ~ prof_pajak.1_3.jpg© dr_pajak.1e.jpg