A Practical Guide to 'Free-Energy' Devices

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Referring to Fig.4 there is shown the relative positions of the movable magnets 54 and 56 for one position of disc 52. For example, the magnet 54 is shown located immediately above the coil 26 while the magnet 56 is shown straddling portions of the coils 32 and 34. If, in this position, coil 32 is energised but coils 34 and 26 are not energised, then the magnetic coupling between magnet 56 and magnet 24 will be oriented at an angle shown illustrated by the arrow in Fig.4, and this attractive coupling will tend to move disc 52 to the right. Since coil 26 is not powered up, there is full coupling between magnet 54 and magnet 24 but this has no effect since it does not have a directional force. At the same time, coil 38 which is the next coil over which the magnet 54 will move, is also not powered up and so it will have no rotational effect on disc 52. As disc 52 continues to rotate, different coils in the group 26-38 will be energised in sequence to continue to produce a rotational magnetic coupling force between disc 52 and magnet 24. It should be noted, however, that all of the rotational force is produced by interaction between the permanent magnets and none of the rotational force is produced by the coils or by any other means. The coils are merely energised in sequence to control where the magnetic interaction occurs, and this is done in a manner to cause disc 52 to rotate. It should also be understood that one, two, or more than two, permanent magnets such as the permanent magnets 54 and 56 can be mounted on the rotating disc 52, and the shape and size of the rotating disc 52 can be adjusted accordingly to accommodate the number of permanent magnets mounted in it. Also, disc 52 can be constructed of a nonmagnetic material, the only requirement being that sufficient structure be provided to support the permanent magnets during rotation. This means that disc 52 need not necessarily be constructed to be round as shown in the drawing. Fig.5 and Fig.6 are similar to Fig.3 and Fig.4 but show a construction where the permanent magnets 54 and 56 are turned over so that instead of having their north poles facing magnet 24 they have their south poles facing magnet 24 but on the opposite side of the coils such as coils 26-38. The construction and operation of the modified device illustrated by Fig.5 and Fig.6 is similar to that described above except that instead of producing magnetic attraction forces between the magnets 54 and 56 and the magnet 24, magnetic repulsion forces are produced, and these repulsion forces can likewise be used in a similar manner to produce rotation of the member 52, whatever its construction. A - 1006
Fig.7 shows a modified embodiment which includes all of the elements shown in Fig.1 and Fig.2 but in addition has a second stationary permanent magnet 102 which is mounted above rotating disc 52 and has its coil members such as coil members 26A-38A mounted on its underside. Magnet 102 operates with the magnets 54 and 56 similarly to the magnet 24 and can operate in precisely the same manner, that is by producing attraction force between the magnet members or by producing repulsion forces between them, each being used to produce relative rotational movement between the rotor and the stator. It is also contemplated to make the construction shown in Fig.7 so as to produce attraction forces between the magnets 54 and 56 on one side thereof and cooperating repulsion forces which add to the rotation generating forces produced on the opposite side. Fig.8 and Fig.9 are similar to Fig.3 and Fig.4 but show the relationship between the magnets 54 and 56 and the members 24 and 102 located on opposite sides. These figures show one form of interaction between the rotating magnets 54 and 56 and the stationary magnets 24 and 102 located as shown in Fig.7. In this construction, the device produces attractive rotating force only. A - 1007
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JUAN AGUERO Patent Application EP04
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the exhaust manifold. This heats so
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combustion chambers. The hydrogen i
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21. The system of claim 20, charact
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electrolysis of water at such a rat
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Fig.4 is an elevation view of the h
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Fig.10 is a cross-section on the li
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Fig.16 is a cross-section on the li
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Fig.23 is an enlargement of part of
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Fig.33 is a perspective view of a v
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A - 843
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through a resistor R4 to provide tr
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The installation of the above circu
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cathode in the upper region of the
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transformer and, assuming an input
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valve apparatus to control engine s
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. a first hollow cylindrical electr
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CHRISTOPHER ECCLES UK Patent App. 2
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Fig.1 is a circuit diagram of fract
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If a large electric field is applie
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The pulses R1 and S1 are of the sam
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DISCLOSURE OF THE INVENTION The inv
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A - 867
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Fig.5B shows a stylised representat
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Fig.6 shows a gas collection system
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Fig.8A and Fig.8B are views of a se
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A - 875
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Figs.16-30 are graphs supporting th
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A - 879
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A - 881
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A - 883
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A - 885
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A - 887
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If it is the case that the hydrogen
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plate shown in Fig.1A and Fig.1B an
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is in equilibrium where the 10 watt
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The previously mentioned prior art
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The stores of high pressure gases c
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unit to retain operational gas pres
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HENRY PAINE This is a very interest
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Henry Paine’s apparatus would the
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some form of distortion of space. I
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superconductive disk is made part o
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Fig.2A and Fig.2B are diagrams, pre
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Fig.4A and Fig.4B are diagrams, pre
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#1 hollow superconductive shield #2
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Fig.2B shows the counter-clockwise
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In this example, the difference bet
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CHARLES POGUE US Patent 642,434 12t
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Fig.3 is a horizontal sectional vie
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Fig.9 and Fig.10 are detail section
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having a valve 52 in it. Chamber 50
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CHARLES POGUE US Patent 1,997,497 9
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Fig.4 is a detail sectional view of
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A low-speed or idling jet 25 has it
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DESCRIPTION OF THE DRAWINGS Fig.1 i
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Fig.5 is a detail sectional view on
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Vapour formed by air bubbling throu
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From the foregoing description it w
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Fig.2 is an enlarged view of the de
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Fig.6 is a section taken along line
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ROBERT SHELTON US Patent 2,982,528
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Fig.4 is a transverse sectional vie
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HAROLD SCHWARTZ US Patent 3,294,381
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182,420 now abandoned. The present
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DESCRIPTION OF THE INVENTION The ca
Page 133 and 134: THOMAS OGLE US Patent 4,177,779 11t
Page 135 and 136: In accordance with other aspects of
Page 137 and 138: Fig.3 is a sectional view of the va
Page 139 and 140: Fig.7 is a partial side, partial se
Page 141 and 142: The cooling system of the vehicle c
Page 143 and 144: Upon initial starting of the engine
Page 145 and 146: (f) A filter positioned in the vapo
Page 147 and 148: with the magnitude of the current a
Page 149 and 150: Fig.1B is a perspective view of the
Page 151 and 152: Fig.3 is a top view of the motor of
Page 153 and 154: Fig.7 is an isometric view showing
Page 155 and 156: Fig.10 is a top view showing the ro
Page 157 and 158: Fig.13 is a top view of a pair of r
Page 159 and 160: Extending in opposite diametric dir
Page 161 and 162: Fig.5 shows the state of the switch
Page 163 and 164: otor magnets 42 - 49 when in the ho
Page 165 and 166: Fig.9 and Fig.10 show a second arra
Page 167 and 168: constructed otherwise than as speci
Page 169 and 170: 12. The motor of claim 11 wherein t
Page 171 and 172: timer or a control mechanism mounte
Page 173 and 174: Fig.4 is a view similar to Fig.3 bu
Page 175 and 176: Fig.10 is a view similar to Fig.3 f
Page 177 and 178: Fig.13 is a schematic circuit diagr
Page 179 and 180: Fig.16 is a simplified embodiment o
Page 181 and 182: Fig.22 to Fig.25 are similar to Fig
Page 183: Referring to Fig.2, the permanent m
Page 187 and 188: them, will depend upon the order in
Page 189 and 190: Fig.14, shows another embodiment 14
Page 191 and 192: Fig.18 shows the air coil 210 posit
Page 193 and 194: Figs. 22-25 show four different pos
Page 195 and 196: movement with the first permanent m
Page 197 and 198: a shaft and means journaling the sh
Page 199 and 200: CLAUDE MEAD and WILLIAM HOLMES US P
Page 201 and 202: Fig.2 is a front elevation of the w
Page 203 and 204: impactors and drills. The turbine d
Page 205 and 206: (a) fourth rotating means responsiv
Page 207 and 208: path to the other side of the perma
Page 209 and 210: Fig.3 is an oscilloscope waveform t
Page 211 and 212: DETAILED DESCRIPTION OF THE PREFERR
Page 213 and 214: although it is by no means obvious
Page 215 and 216: second diode connected at its posit
Page 217 and 218: In the present invention, a permane
Page 219 and 220: Fig.4 is a circuit diagram, illustr
Page 221 and 222: and Fig.3. In practice, this coil m
Page 223 and 224: y a simultaneous magnetic accelerat
Page 225 and 226: Mr. P.G. Mallory started out in 191
Page 227 and 228: All models have a 30 Watt power rat
Page 229 and 230: In the auto racing circles it has a
Page 231 and 232: BATTERY + _ SIMPLIFIED MULTIVIBRATO
Page 233 and 234: Schematic Wiring Diagrams for two P
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motor. What is not generally known,
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Mark McKay's investigation of Edwin
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Investor Photo #012D Popping a coil
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capacitors connected in series, wit
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PULSE WIDTH TIME IN mS went to the
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TOP DEAD CENTER 0° REFERENCE Accor
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The recovery and simple analysis of
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FILTER CAPACITOR + 2 OHM 200 WATT R
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Subject: CSET design Date: Sun Feb
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Date: Fri Feb 28, 2003 8:25 pm (Tim
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(Tad Johnson) I'm being as careful
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SANGAMO ENERGY DISCHARGE CAPACITOR
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(Alan Francoeur) But I also measure
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Subject: Progress Date: Sun Mar 30,
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● all electrical connections were
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Mark Gray claims that the heart and
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Mark Gray claims that some potentia
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Radio Frequency (RF) Generator Gene
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Some time during 1987 - 1988, Gray
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The two-channel trace from the osci
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What “maximum squareness” means
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Zo = 112 Ohms Td of 293 nS. 50 KV 8
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MIKE BRADY’S “PERENDEV” MAGNE
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Fig.3 is a perspective view showing
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Fig.7 is a perspective view showing
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In the rotor assembly 30 of Fig.2,
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Fig.7 shows a typical magnetic sour
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DONALD A. KELLY ABSTRACT Patent US
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This series of magnetic oscillating
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Because there is no natural, lock-i
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Fig.3 is an enlarged top view of on
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An arm 9, is fastened to a flat fac
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Fig.2 is a vertical transverse cros
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Fig.6 is a vertical, longitudinal,
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Working inside the cylinders 12 are
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Leroy K. Rogers Patent US 4,292,804
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Preferred embodiments of a method a
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Fig.6 is a cross-sectional view of
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tapped hole in the cylinder 20 typi
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A second embodiment of a valve actu
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otates faster, the other end 98 of
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In normal operation (as seen in Fig
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Eber Van Valkinburg Patent US 3,744
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Referring to the drawings in detail
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Since the pump depends for its supp
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Briefly, in one aspect the engine o
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Fig.12 is a cross-sectional view si
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Fig.14 is a schematic diagram of an
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A - 1163
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A - 1165
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Figs.20A-20F are schematic diagrams
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Note: Corresponding reference chara
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Integral with the piston bodies are
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The piston has a generally semi-tor
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Referring back to Fig.13A, for engi
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As piston 39A reaches BDC, distribu
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mixture and do not combine because
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These wires are about twelve gauge,
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cold-cathode tube 391, and an x-ray
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Fig.17D), polariser 289, branch B17
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Robert Britt US Patent 3,977,191 31
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Fig.3 is an elevational view of the
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Fig.7 is an electrical schematic of
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Referring now to Fig.3 of the drawi
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and drives Q1 into conduction. The
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Floyd Sweet Recently, some addition
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The day when we witnessed the VTA d
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up to see Floyd. Floyd was with the
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Energy cannot enter a space of zero
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electromagnetic and gravitational f
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or in another form: So, the e.m.f.
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Example 2: Suppose the conductor wi
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Meguer Kalfaian There is a patent a
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Fig.2 illustrates a controlled top
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Fig.9 is a modification of Fig.6; a
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the outer periphery of the magnet,
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wobbling top is sufficient, as proo
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Theodore Annis & Patrick Eberly US
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BRIEF DESCRIPTION OF THE DRAWINGS F
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Fig.6 is a schematic diagram of a s
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DETAILED DESCRIPTION OF THE PREFERR
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Fig.5 is a detail drawing of an alt
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In the preferred implementation of
Page 411 and 412:
William McDavid junior US Patent 6,
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This sloping floor causes the drive
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FIG.3 is a side elevational view of
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FIG.9 is a horizontal cross-section
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otational downstream annular chambe
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In Fig.5 is shown a perspective vie
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small hydro-electric version of the
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Fig.10 is a perspective view of a s
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longitudinally mounted in the upstr
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shaft in the central aperture, said
Page 431 and 432:
Scientific Papers The following lin
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