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These are the user uploaded subtitles that are being translated: 1 00:00:53,360 --> 00:00:54,140 Okay. 2 00:00:54,140 --> 00:00:55,700 This is the monopole motor. 3 00:00:56,180 --> 00:01:04,939 And what we're going to do is convert the circuitry from the monopole circuitry to "Tesla's impulse" technology. 4 00:01:06,390 --> 00:01:16,969 Now, you'll notice right here that we just connected one lead to one of these transistors. 5 00:01:16,970 --> 00:01:23,450 So we're actually across this coil, this direction with the rectifier right here. 6 00:01:24,500 --> 00:01:33,949 So we'll start this thing and what we'll show you is these spikes of energy right here on the scope 7 00:01:35,840 --> 00:01:37,759 and actually you can see the spikes here. 8 00:01:38,390 --> 00:01:45,769 So what we want to do is, we want to steel this impulse that you see on the scope here. 9 00:01:46,370 --> 00:01:51,230 We want to actually capture it and send it to a battery to recharge the battery. 10 00:01:51,800 --> 00:01:54,079 So when we do that, if we watch the battery. 11 00:01:57,890 --> 00:02:01,099 We'll see that the impulse technologies is still there. 12 00:02:02,640 --> 00:02:05,659 I will expand this a little bit so you can see what we're capturing. 13 00:02:06,800 --> 00:02:10,055 But see it goes below the line now. 14 00:02:10,255 --> 00:02:16,099 It goes into the negative region of the coil just below the line. 15 00:02:16,370 --> 00:02:17,370 *Okay. 16 00:02:17,600 --> 00:02:23,839 So what we're actually doing now is we're taking the negative electricity and telling it to charge this battery. 17 00:02:29,440 --> 00:02:31,889 But you can see that there's no effect on the motor. 18 00:02:33,600 --> 00:02:38,819 And there's actually two or three different places that we can tap this negative energy. 19 00:02:39,450 --> 00:02:50,129 We could, for instance, insert another coil in series with this and capture another high voltage across this coil. 20 00:02:50,850 --> 00:02:56,069 And if we walk over here to the blackboard, we'll sort of explain it to you. 21 00:02:57,300 --> 00:03:02,099 Here's the circuit of the monopole motor and you can see that there's one motor drive coil. 22 00:03:02,100 --> 00:03:09,240 There's one trigger coil, because we need the trigger to set the impulse technology in the operation. 23 00:03:09,750 --> 00:03:16,919 But the one thing that's different, you'll notice here is now the rectifier is placed across just one coil. 24 00:03:18,480 --> 00:03:29,189 So if we take this coil and we just give it an impulse and shut it off, what we're going to do is capture the negative energy in the system. 25 00:03:29,757 --> 00:03:33,929 And so this is exactly what's happening here. 26 00:03:34,320 --> 00:03:39,419 We just want to capture that DC impulse technology and send it to the next battery. 27 00:03:39,900 --> 00:03:49,692 Now, "Tesla's" technology was this straight wire down here with a light bulb across the wire 28 00:03:49,892 --> 00:03:54,870 now when the impulses, and I'll just draw it this way. 29 00:03:57,490 --> 00:03:59,349 When the impulses are correct. 30 00:04:02,840 --> 00:04:06,774 A node appears across this wire, 31 00:04:06,974 --> 00:04:09,110 *a node. N-O-D-E 32 00:04:09,714 --> 00:04:11,571 N-O-D-E, node. 33 00:04:11,572 --> 00:04:19,371 And that's where the voltage is, at the correct frequency then the free energy appears. And that's right here. 34 00:04:22,170 --> 00:04:26,489 because no longer you add in any energy or subtracting any energy from the system. 35 00:04:26,850 --> 00:04:34,589 The vacuum puts this in and you're free to take this energy across this node right here. 36 00:04:38,620 --> 00:04:39,819 So here's the node. 37 00:04:40,720 --> 00:04:42,819 Here's the monopole motor. 38 00:04:44,230 --> 00:04:46,360 It's connected up with just one coil. 39 00:04:46,786 --> 00:04:56,529 So no matter how many coils you put in the system here, you just going to collect them by the energy across the one node. 40 00:04:57,640 --> 00:04:59,486 These are meaningless then. 41 00:05:00,400 --> 00:05:02,170 So we don't even need to put them in there. 42 00:05:03,130 --> 00:05:06,789 Now, if we want to get some more energy. 43 00:05:12,050 --> 00:05:17,570 You could just put another coil here, connect it to a rectifier. 44 00:05:27,810 --> 00:05:36,949 And so you charge a capacitor and then we could change this from negative to positive energy and then discharge. 45 00:05:37,230 --> 00:05:38,230 Let's do that. 46 00:05:53,010 --> 00:05:55,649 Once again, we're asking the motor to generate them. 47 00:05:57,600 --> 00:05:59,489 We're asking to charge that battery. 48 00:06:03,260 --> 00:06:08,179 Now we've changed the total output of the negative energy and you can see it here. 49 00:06:08,360 --> 00:06:09,739 *Okay. Now, what did you do here again? 50 00:06:09,980 --> 00:06:20,006 We just added a coil, like we drew on the board there, and now we're going to rectify that coil and charge your condenser with that coil 51 00:06:20,206 --> 00:06:22,070 a smaller condenser because. 52 00:06:24,080 --> 00:06:25,939 Because we're at a higher frequency here. 53 00:06:48,030 --> 00:06:54,660 So actually what we're looking for is we're looking for all the possible negative energy in the total system. 54 00:06:55,140 --> 00:07:02,519 We want to be able to capture all this energy without adding any more input to the circuit at all. 55 00:07:28,150 --> 00:07:35,080 Now, this is actually taking the energy from this node across this coil, the node's going to appear here. 56 00:07:38,530 --> 00:07:42,879 Across these two points in the total system. 57 00:07:42,880 --> 00:07:44,859 See the system is a series system. 58 00:07:47,840 --> 00:07:52,820 The note is going to appear across this inductor that we just put in here. 59 00:07:53,330 --> 00:07:57,759 So if we erase the total circuit, here is where the energy is going to appear. 60 00:08:00,980 --> 00:08:12,350 Remember that we want to work with "Tesla's" analogy of the one wire system because we're just going to use this one wire to capture the energy. 61 00:08:13,190 --> 00:08:20,300 So what I've done is since the motor is oscillating with this impulse. 62 00:08:26,620 --> 00:08:29,630 Now, this is not AC and it's not DC. 63 00:08:30,080 --> 00:08:33,440 It's just an impulse coming from the motor. 64 00:08:33,860 --> 00:08:41,720 So you could call it a form of DC impulse at a certain frequency rate, which the motor is putting out a certain frequency here. 65 00:08:42,530 --> 00:08:48,020 So what we want to do is create a node on this wire. 66 00:08:51,250 --> 00:09:00,000 And then right at the tip of this node, we want to take the energy off this wire because then we don't have to put any more energy in the wire. 67 00:09:00,520 --> 00:09:01,520 It's already there. 68 00:09:04,680 --> 00:09:07,529 So here's basically what our circuits are going to look like. 69 00:09:11,730 --> 00:09:14,760 And we're just going to take the energy from this node. 70 00:09:20,180 --> 00:09:22,519 Rectifier, reactor, capacitor. 71 00:09:25,540 --> 00:09:33,070 We're going to take the energy from this node, rectify it and bring it to a battery. 72 00:09:37,100 --> 00:09:39,217 on this end. 73 00:09:43,420 --> 00:09:52,330 So we have a plus and we have a minus coming off this node and we have a plus and a minus coming off this node. 74 00:09:52,330 --> 00:09:57,549 And we're not going to put any more energy into the system to get any more and get the energy out. 75 00:09:59,020 --> 00:10:01,029 So we'll measure that here. 76 00:10:11,620 --> 00:10:13,359 What's coming across this node. 77 00:10:16,030 --> 00:10:22,029 Is about minus see. Let's just reverse it so we can get a positive reading. 78 00:10:23,950 --> 00:10:30,789 There's already 86 volts across this node which you could dump to another battery in an impulse discharge. 79 00:10:31,270 --> 00:10:40,690 Meanwhile, this battery is receiving the energy negative wise in about 13.4. 80 00:10:42,040 --> 00:10:51,549 So let's drain this energy off and watch it charge what happens when we drain this energy off of this battery and then we'll watch this node. 81 00:10:52,810 --> 00:10:55,389 *So just to be clear, this is the node. 82 00:10:56,380 --> 00:11:00,520 We're taking this straight wire, this inductor. 83 00:11:00,850 --> 00:11:01,570 *Right. 84 00:11:01,570 --> 00:11:03,789 This is a series configuration. 85 00:11:03,790 --> 00:11:06,530 So it's exactly as it's drawn on the board. 86 00:11:06,550 --> 00:11:07,550 *Okay. 87 00:11:08,770 --> 00:11:13,240 And we're taking energy from two points in this circuit, which is negative. 88 00:11:13,660 --> 00:11:14,660 *Right 89 00:11:14,680 --> 00:11:18,460 one in series with the other coil. 90 00:11:18,640 --> 00:11:19,640 *Right. 91 00:11:19,870 --> 00:11:24,580 So that occurs across this one and a node appears across this one. 92 00:11:25,120 --> 00:11:28,359 Only when the impulse technology is in place. 93 00:11:28,990 --> 00:11:34,930 And what I mean by that is the DC has to be in impulses. 94 00:11:37,660 --> 00:11:38,660 Like this. 95 00:11:40,810 --> 00:11:43,839 If there's no impulses, there's no energy. 96 00:11:44,770 --> 00:11:45,770 *Right. 97 00:11:45,950 --> 00:11:46,660 okay. 98 00:11:46,660 --> 00:11:51,099 This is exactly what "Tesla's" talking about when he talks about impulse technology. 99 00:11:55,810 --> 00:11:58,420 That's been mentioned in a in a couple of different books. 100 00:11:59,080 --> 00:12:03,160 Jerry... mention it, "Tesla" mentions it. 101 00:12:03,520 --> 00:12:04,779 Tesla called it something. 102 00:12:04,900 --> 00:12:11,409 He calls it radiant, but you could see it is radiant and negative at the same time. 103 00:12:12,850 --> 00:12:17,913 What we want to be able to do is create an impulse on this wire, 104 00:12:18,113 --> 00:12:21,380 which means the circuit's never steady on, 105 00:12:21,580 --> 00:12:29,859 and that what we want to be able to do is the wire will supply the energy at the correct frequency in a node. 106 00:12:31,570 --> 00:12:33,489 And that's what you want to take. 107 00:12:35,650 --> 00:12:38,117 To charge your battery or charge up a capacitor, 108 00:12:38,317 --> 00:12:45,152 You want to be able to not only charge the battery while you're running the motor, you want to be able to charge another capacitor bank 109 00:12:45,352 --> 00:12:48,190 so that you can dump that to another battery if you need it. 110 00:12:48,520 --> 00:12:56,050 And by the way, this is real positive energy when it comes off here and negative when it comes off here. 111 00:12:57,686 --> 00:13:05,800 So no matter how many nodes you can keep at the right rate, you can keep adding these circuits like "Tesla" did. 112 00:13:08,200 --> 00:13:15,614 So this is the turn where "Tesla" takes the circuit and he shuttles the energy around the circuit. 113 00:13:15,640 --> 00:13:16,570 *Okay. 114 00:13:16,570 --> 00:13:19,629 Because each one of these is going to give him an energy. 115 00:13:24,520 --> 00:13:25,520 Each one of these. 116 00:13:25,960 --> 00:13:31,601 So if he takes the energy here that he's losing in this circuit and then he shuttles it back over here 117 00:13:31,801 --> 00:13:37,629 to some other part of the circuit, now he's got this energy that's feeding the circuit for basically nothing. 118 00:13:39,970 --> 00:13:45,040 Zero cost, he's only putting in one trigger signal that's always staying the same. 119 00:13:45,580 --> 00:13:50,229 But yet the one wire is supplying all this energy to these different components. 120 00:13:52,090 --> 00:13:57,329 And that's the term, shuttling energy back and forth around the circuit. 121 00:13:57,330 --> 00:14:03,729 like if i took a little bit of this, disconnected this, discharge this, then the motor still runs. 122 00:14:04,300 --> 00:14:09,021 And all I've done was charge this capacitor, put it over to the motor 123 00:14:09,221 --> 00:14:12,100 so I can flip this energy around the circuit. 124 00:14:13,720 --> 00:14:17,259 Now we can charge a bigger capacitor then run the motor on that capacitor. 125 00:14:17,710 --> 00:14:21,780 Disconnect it, shuttle some more of that energy around the circuit. 126 00:14:21,820 --> 00:14:24,070 So this is impulse technology. 127 00:14:26,400 --> 00:14:28,470 So what do we do? What are we actually doing? 128 00:14:29,670 --> 00:14:32,231 We have this coil 129 00:14:32,431 --> 00:14:36,299 and when we energize this coil. 130 00:14:38,430 --> 00:14:40,380 So we put energy into this coil. 131 00:14:41,190 --> 00:14:42,190 We just call it E. 132 00:14:44,190 --> 00:14:45,239 Which is potential. 133 00:14:46,830 --> 00:14:51,570 We're going to put energy into this coil and this coil is going to do this. 134 00:14:52,200 --> 00:15:01,857 It's going to charge and it is going to move this magnetic field down just like this, 135 00:15:01,886 --> 00:15:05,490 where this is the North Pole and this is the South Pole. 136 00:15:06,600 --> 00:15:07,950 It's going to compress it. 137 00:15:09,660 --> 00:15:10,020 Okay. 138 00:15:10,020 --> 00:15:12,149 So now we actually look at this coil. 139 00:15:13,530 --> 00:15:22,859 We've compressed this with an impulse so we're compressing this real fast, it's moving down in layers. 140 00:15:29,750 --> 00:15:31,340 *How do you know it's moving down in layers? 141 00:15:32,090 --> 00:15:34,159 because of the energy output of the coil. 142 00:15:34,310 --> 00:15:34,790 *Okay. 143 00:15:34,790 --> 00:15:35,220 Okay. 144 00:15:35,220 --> 00:15:37,759 We know that we're putting in, it's just dead solid. 145 00:15:37,760 --> 00:15:39,200 It's like a permanent magnet. 146 00:15:42,300 --> 00:15:43,979 But this is an electromagnet. 147 00:15:44,640 --> 00:15:52,350 So with an electromagnetic magnet, we can turn the energy off and on gaining negative energy or vacuum energy. 148 00:15:53,070 --> 00:15:54,369 This one is stationary. 149 00:15:54,390 --> 00:16:04,519 Once charged, this neutral zone, or what they call the "Bloch wall" is actually the input of all the energy. 150 00:16:04,530 --> 00:16:05,580 *It's B-L-O-C-H?. 151 00:16:06,150 --> 00:16:06,660 Yes. 152 00:16:07,500 --> 00:16:10,769 So let's get this thing in an expanded view so you can see this. 153 00:16:11,700 --> 00:16:15,430 Then we'll go back to the coil and show you how. 154 00:16:17,690 --> 00:16:23,330 How this energy is going to become an energy park with a stationary magnet. 155 00:16:27,580 --> 00:16:31,809 Once you charge this magnet, the North Pole stays here and the South Pole stays here. 156 00:16:33,430 --> 00:16:39,220 But what people don't understand is this is this zero portion of the magnet. 157 00:16:39,460 --> 00:16:40,460 There's nothing there. 158 00:16:40,600 --> 00:16:44,619 It's the absence of all gravity and everything that moves. 159 00:16:44,620 --> 00:16:48,639 The gravitational energy of the magnet is off over here somewhere. 160 00:16:50,320 --> 00:16:57,280 All right, so what's happening is once we charge this magnet, the particles align, the oscillation stays. 161 00:16:58,030 --> 00:17:00,639 And what we get is two cones. 162 00:17:04,150 --> 00:17:07,029 And the energy enters in this way. 163 00:17:08,900 --> 00:17:09,900 on each side. 164 00:17:14,050 --> 00:17:15,599 That's the vacuum energy. 165 00:17:15,609 --> 00:17:21,219 So in a permanent magnet, you have a real free energy machine because this is good for your life. 166 00:17:21,490 --> 00:17:28,863 It stays stationary, but it doesn't it doesn't buy us anything because we're not able 167 00:17:29,063 --> 00:17:35,109 we don't have a mechanism right at this point in time to tap this input. 168 00:17:39,580 --> 00:17:40,660 In both directions. 169 00:17:42,400 --> 00:17:47,589 This is the energy of the universe entering this magnet because it stays permanent. 170 00:17:48,040 --> 00:17:51,729 It stays in a perpetual state of magnetism. 171 00:17:52,510 --> 00:17:55,750 So it is a free energy machine that's sticking to your refrigerator. 172 00:17:55,780 --> 00:17:58,119 Now go back to the coil. 173 00:18:00,780 --> 00:18:05,279 What we want to do is create an energy pump to draw the vacuum. 174 00:18:05,280 --> 00:18:08,730 And so we apply impulse technology. 175 00:18:12,320 --> 00:18:17,660 Which are these high voltage potentials to the coil, the coil pulls in. 176 00:18:19,940 --> 00:18:21,079 When we shut this off. 177 00:18:25,590 --> 00:18:30,869 This portion that's been compressed, which is not this level. 178 00:18:33,310 --> 00:18:38,680 We're going to leave this out here so you can see this. It's at this level when it's compressed. 179 00:18:39,640 --> 00:18:42,040 Now, we let the energy lose. 180 00:18:48,480 --> 00:18:56,340 And this window starts to move this cone upward for more input energy. 181 00:18:56,340 --> 00:18:58,290 And that's where the high voltage comes from. 182 00:18:58,860 --> 00:18:59,860 It comes. 183 00:19:00,690 --> 00:19:04,920 Let's redraw this a little bit so you can get a better idea of how this is going to work. 184 00:19:05,790 --> 00:19:07,229 This is our coil symbol. 185 00:19:10,790 --> 00:19:13,849 This is that electromagnet because we have some iron in here. 186 00:19:15,980 --> 00:19:22,969 So when we put the potential across this, this becomes the North Pole and this becomes the South Pole. 187 00:19:23,750 --> 00:19:26,660 And you look at it as a normal electromagnet. 188 00:19:27,020 --> 00:19:33,500 However, what we want to create is a vacuum energy pump. 189 00:19:34,670 --> 00:19:36,440 So we have to add the impulses. 190 00:19:40,810 --> 00:19:43,960 And we look at the coil like this and we have these different levels. 191 00:19:44,290 --> 00:19:45,400 So here's what's going to happen. 192 00:19:46,090 --> 00:19:47,090 We charge the coil. 193 00:19:50,240 --> 00:19:52,737 And we get a "bloch wall" 194 00:19:52,937 --> 00:19:59,329 so we can look at the energy coming in, in a narrow beam right now. 195 00:20:03,370 --> 00:20:04,780 We have to release. 196 00:20:05,860 --> 00:20:07,959 We have to be able to release this 197 00:20:08,159 --> 00:20:15,369 so that we can ask the vacuum to pour in energy, because right now it's just stationary as if it was a permanent magnet. 198 00:20:16,600 --> 00:20:24,069 So when the transistor lets loose in the monopole motor, it moves upward. 199 00:20:24,940 --> 00:20:28,869 The coil starts to collapse when the coil starts to collapse. 200 00:20:28,914 --> 00:20:33,214 Notice the vacuum window starts to increase. 201 00:20:37,480 --> 00:20:38,440 gets up here. 202 00:20:38,440 --> 00:20:46,420 The vacuum window increases to here, increases to here, increases to here, until it goes to zero. 203 00:20:47,800 --> 00:20:53,950 Then we had the next impulse and this comes back down, compresses again. 204 00:20:54,700 --> 00:21:00,789 So it compresses and expands, compresses, expands, compresses, expands. 205 00:21:01,540 --> 00:21:08,429 And each time you do this, what happens is the output from this coil is the thing that burns out your circuit. 206 00:21:08,430 --> 00:21:13,450 Which is this very high potential that wasn't there in the beginning. 207 00:21:14,690 --> 00:21:16,130 This is the vacuum energy. 208 00:21:17,390 --> 00:21:22,490 The normal signal is an impulse trigger. 209 00:21:26,440 --> 00:21:28,299 That's how the normal signal would look. 210 00:21:28,780 --> 00:21:30,009 It's like a little square away. 211 00:21:31,210 --> 00:21:33,849 This would be 0 volts. This would be 12 volts. 212 00:21:35,170 --> 00:21:42,150 Well, the real back EMF is always going to be far less because of the resistance of the coil. 213 00:21:44,140 --> 00:21:45,609 So it's going to want to shoot. 214 00:21:47,110 --> 00:21:48,110 Like this. 215 00:21:52,190 --> 00:21:54,799 Shoot downward because it reverses. 216 00:21:55,040 --> 00:21:56,040 Right. 217 00:21:56,240 --> 00:21:58,760 But when you add the impulse technology to it. 218 00:22:01,220 --> 00:22:06,720 What happens is you get this tremendous vacuum energy spike that appears. 219 00:22:07,720 --> 00:22:08,720 On this. 220 00:22:08,890 --> 00:22:13,510 And these are 300 to 500 volt ranges. 221 00:22:15,490 --> 00:22:17,286 Okay. And it's always negative. 222 00:22:18,490 --> 00:22:22,510 it's charging the battery in an inverted circuit on this machine. 223 00:22:23,500 --> 00:22:27,986 So what we want to steal is this right here. 224 00:22:27,987 --> 00:22:34,810 And I call it stealing and this is your free energy right here, also the mechanical energy. 225 00:22:35,830 --> 00:22:47,380 So here you are running your motor for this amount of energy, never adding any more energy to the system . 226 00:22:47,710 --> 00:22:56,180 The back EMF, everybody likes to turn this back EMF because they said, well, the coil reverses that's the back EMF. 227 00:22:56,830 --> 00:22:57,859 That's very untrue. 228 00:22:57,880 --> 00:23:04,900 The back EMF is always below the input voltage. 229 00:23:05,710 --> 00:23:10,420 So the back EMF here may just be 8 volts. 230 00:23:11,740 --> 00:23:17,529 That's not enough to charge your storage battery or to take to do anything with. 231 00:23:18,190 --> 00:23:19,690 So there's always a loss here. 232 00:23:22,460 --> 00:23:27,800 This is your loss range, so you try to increase this to get more. 233 00:23:28,340 --> 00:23:31,910 And the current just starts to rise. 234 00:23:31,910 --> 00:23:37,910 The minute the current catches up in the system, you lose all your vacuum input. 235 00:23:39,830 --> 00:23:48,079 So you have ranges that you can bring the current to on the monopole until you just can't get anything out of it. 236 00:23:49,970 --> 00:23:56,750 So basically that's what I wanted to explain about the monopole motor that it's quite capable of doing 237 00:23:57,950 --> 00:24:06,870 "Tesla's impulse" technology and I can show you a real back EMF return on one of these window motors in a little bit, 238 00:24:06,871 --> 00:24:10,657 and you can see that you can't charge the battery with it. You don't get anything. 239 00:24:12,170 --> 00:24:14,089 So you need this high potential. 240 00:24:18,850 --> 00:24:20,769 Way beyond the battery voltage. 241 00:24:21,640 --> 00:24:28,239 Then you take this potential and you convert it and you send it to the next battery, and it's just a signal to the next battery. 242 00:24:31,330 --> 00:24:33,579 If you look at the two plates in the battery. 243 00:24:37,620 --> 00:24:41,520 And we'll just call these big basketball ions. 244 00:24:43,170 --> 00:24:49,120 What we want to do is potentialize this ions. 245 00:24:49,350 --> 00:24:50,760 So we want to. 246 00:24:55,520 --> 00:24:57,799 put a potential around this ion. 247 00:25:01,740 --> 00:25:05,040 Because we want the ion to move to the next plate for nothing. 248 00:25:05,160 --> 00:25:06,450 We don't want to add any current. 249 00:25:07,020 --> 00:25:08,020 We want this stuff. 250 00:25:08,580 --> 00:25:15,150 We want these ions to all go towards this plate in a recharged fashion. 251 00:25:15,750 --> 00:25:19,979 That way it hasn't cost us very much to move these ions. 252 00:25:20,520 --> 00:25:23,460 We didn't have to use a big current to move them to the next place. 253 00:25:25,110 --> 00:25:30,119 Now, is there any energy in the battery after using the impulse technology? 254 00:25:32,410 --> 00:25:40,029 Okay, so back over here, we know that we have a node here and that we're gaining energy here because we've measured it here. 255 00:25:41,440 --> 00:25:42,910 Now we're up to like 100. 256 00:25:42,910 --> 00:25:51,940 And you see, so nature's blowing the energy in at a constant rate and of course, the meter drives it out. 257 00:25:53,560 --> 00:25:58,419 So the fact is, is there energy here that you can dump to a battery? 258 00:26:02,970 --> 00:26:03,970 Yes. 259 00:26:06,510 --> 00:26:08,010 So I could go back here again. 260 00:26:10,400 --> 00:26:11,400 Take the energy. 261 00:26:15,560 --> 00:26:17,749 Dump it back to the battery. 262 00:26:23,410 --> 00:26:25,550 *And that's while you're still charging a battery? 263 00:26:25,610 --> 00:26:27,890 Well, I'm still charging the battery. Right, correct. 264 00:26:28,490 --> 00:26:36,530 And so, yeah, it takes a second because remember, it's trying to put all the energy in the nodes. 265 00:26:37,790 --> 00:26:39,369 So you have to have the correct. 266 00:26:39,380 --> 00:26:41,420 And we're not going at a very high frequency. 267 00:26:41,420 --> 00:26:43,770 If we were going at a really high frequency this would be tremendous. 268 00:26:45,260 --> 00:26:47,809 We're just using the motor, actually. 269 00:26:48,590 --> 00:26:49,590 Come on up here. 270 00:26:53,860 --> 00:26:54,860 *Yeah, got it. 271 00:26:56,350 --> 00:27:06,430 So is there any real energy in this battery now from charging it with this impulse technology? 272 00:27:06,910 --> 00:27:10,539 And how quickly does the impulse technology charge this battery? 273 00:27:11,380 --> 00:27:12,380 So let's find out. 274 00:27:14,360 --> 00:27:15,610 So we'll stop the machine. 275 00:27:18,090 --> 00:27:20,640 so we can bring these lights around here. 276 00:27:22,760 --> 00:27:26,489 So now we're going to see what the impulse technology actually put in the battery. 277 00:27:31,410 --> 00:27:37,150 We'll run it down a little bit here and then we'll ask the impulse technology to charge it back up. 278 00:27:39,460 --> 00:27:46,599 We're pulling it out off at a 30 amp rate, of a garden battery, which is a 13 amp hour battery. 279 00:27:49,800 --> 00:27:53,640 So the battery's technically dead right at this very moment 280 00:27:55,200 --> 00:27:56,220 a garden battery. 281 00:27:57,390 --> 00:28:00,270 But we could pull it all the way down to 10 volts. 282 00:28:00,330 --> 00:28:01,680 *What do you mean by garden battery? 283 00:28:01,920 --> 00:28:04,560 It's a garden battery that you'd find on your lawn tractor. 284 00:28:05,310 --> 00:28:05,920 *Okay. 285 00:28:06,210 --> 00:28:14,369 It's just a cheap little $24 battery that you'd use for a lawn equipment to start your lawn mower. 286 00:28:16,140 --> 00:28:17,250 it's holding right here. 287 00:28:18,600 --> 00:28:22,619 So it's found a level to where it could supply the current. 288 00:28:25,370 --> 00:28:28,130 For a certain period of time and it'll move. 289 00:28:28,130 --> 00:28:29,839 The battery will move down to level. 290 00:28:35,030 --> 00:28:38,078 That's just starting to move down now 291 00:28:38,278 --> 00:28:48,130 because we're asking this battery to do a lot of work on a C1 scale or below, you know that this battery just can't do it. 292 00:28:48,820 --> 00:28:53,359 Well, now let's see where it recovers to and then let's add the impulse technology to it. 293 00:29:19,170 --> 00:29:24,819 Remember, the ions are still moving in this battering because of the way that we were charging it. 294 00:29:24,840 --> 00:29:33,292 So not only are they trying to reverse, they're trying to go back the other direction right now, like if you stretched out a spring 295 00:29:33,492 --> 00:29:36,599 because that battery is already to a standing voltage. 296 00:29:36,810 --> 00:29:39,729 *So this is like the rebound effect that you talk about in your book. 297 00:29:39,750 --> 00:29:40,410 Yes. 298 00:29:44,130 --> 00:29:45,130 So now. 299 00:29:51,470 --> 00:29:53,749 We've hooked up the machine. 300 00:30:06,570 --> 00:30:11,067 And we're going to ask it to charge it, so right again 301 00:30:11,267 --> 00:30:14,970 there we can see it go beyond to the negative. 302 00:30:16,350 --> 00:30:22,108 See, notice the wave shape doesn't look the same as the normal motor wave shape 303 00:30:22,109 --> 00:30:27,210 because we've told the machine not to capture it from one specific in. 304 00:30:31,380 --> 00:30:32,549 Now let's see what this battery is doing. 305 00:30:41,940 --> 00:30:43,050 If we take this one off. 306 00:30:46,050 --> 00:30:47,050 Where we tell it. 307 00:30:57,730 --> 00:31:04,060 Just apply that impulse only to this device and then you notice. 308 00:31:06,830 --> 00:31:08,450 They're starting to climb right up there. 309 00:31:10,580 --> 00:31:12,469 They would only need one coil to do this. 310 00:31:12,470 --> 00:31:15,559 They only need one wire to capture this front. 311 00:31:16,040 --> 00:31:19,579 The others are meaningless at this moment. 312 00:31:21,080 --> 00:31:22,559 *So where's the capturing taking place? 313 00:31:22,640 --> 00:31:26,119 Just on one of these wires, just across to one of the wires. 314 00:31:29,420 --> 00:31:37,130 You can see it's here hooked, across the coil as in, and I'll draw it on the board one more time where we hooked it up. 315 00:31:38,360 --> 00:31:39,680 So what we did. 316 00:31:41,840 --> 00:31:42,840 Was. 317 00:31:44,430 --> 00:31:45,839 We have our transistor. 318 00:31:49,750 --> 00:31:52,099 And we're just going to call this the ground. 319 00:31:53,960 --> 00:31:55,489 We've got one coil. 320 00:32:01,240 --> 00:32:02,890 That's being triggered. 321 00:32:05,180 --> 00:32:06,380 From this North Pole. 322 00:32:06,770 --> 00:32:10,159 So this is a trigger signal, that's going to generate. 323 00:32:12,730 --> 00:32:13,730 This way. 324 00:32:25,130 --> 00:32:26,510 We're going to cut that wave. 325 00:32:26,810 --> 00:32:33,200 So we don't want to burn the transistor out and then if we just took this coil, that was the motor. 326 00:32:36,870 --> 00:32:38,519 And we have our input battery. 327 00:32:46,780 --> 00:32:49,779 We're going to generate these impulses across this coil. 328 00:32:53,640 --> 00:32:55,859 Then we're going to tap across this coil. 329 00:33:04,030 --> 00:33:08,949 And we're going to take the negative energy that enters this coil. 330 00:33:10,630 --> 00:33:12,549 And of course, the scope is going to show it. 331 00:33:19,350 --> 00:33:21,840 We want this portion, we want the negative energy. 332 00:33:22,470 --> 00:33:24,580 We're going to take this out, but. 333 00:33:26,200 --> 00:33:28,150 it can charge our battery. 334 00:33:33,410 --> 00:33:35,960 You now would want to use this for now is an energy pump. 335 00:33:36,530 --> 00:33:40,939 We want to pump this back and forth with this impulse. 336 00:33:42,110 --> 00:33:51,550 And then when the node develops across this coil, we want to take that node, take that energy, and put it to the secondary. 337 00:33:56,100 --> 00:34:02,219 That's what we're doing right here, right now, because we're up to 12.87, 88. 338 00:34:09,290 --> 00:34:10,639 Then they'll continue to climb. 339 00:34:15,957 --> 00:34:18,529 -How high can that go up to? 340 00:34:18,530 --> 00:34:20,600 16, 17 or more. 341 00:34:28,210 --> 00:34:34,071 You also looking at these spikes, we magnified these spikes because the minute we disconnect this. 342 00:34:34,072 --> 00:34:37,071 "Tony", the voltage is going to shoot off the scale. 343 00:34:38,139 --> 00:34:39,520 And we'll do that real quick here. 344 00:34:43,750 --> 00:34:45,609 We have to lower down quite a bit. 345 00:34:48,440 --> 00:34:50,750 See it's, it's below the line. 346 00:34:50,840 --> 00:34:51,840 *Yeah. 347 00:34:52,580 --> 00:34:54,739 There's nowhere for that energy to go. 348 00:34:55,820 --> 00:35:02,149 So the minute we tell the vacuum to catch it, right, We want to catch it in this energy pump. 349 00:35:03,140 --> 00:35:04,309 Then what you see is this. 350 00:35:12,440 --> 00:35:13,440 See?. 351 00:35:14,680 --> 00:35:15,680 It's below. 352 00:35:15,730 --> 00:35:18,189 *Yeah, that's a negative energy. 353 00:35:18,580 --> 00:35:22,210 Yeah, we have the negative energy portion of the the wave. 354 00:35:22,840 --> 00:35:29,077 So the motor is just going to do its normal thing that's going to continue to do its work while it charges its second battery, 355 00:35:29,277 --> 00:35:31,960 but it's just going to charge it a little bit differently. 356 00:35:32,590 --> 00:35:35,140 It's going to charge it in a negative time. 357 00:35:37,420 --> 00:35:46,389 Batteries like to be charged in a positive time, so we're almost at 13 volts now again, which isn't really long to wait. 358 00:35:48,830 --> 00:35:52,189 Considering you kept the same in for the power no matter what. 359 00:35:52,460 --> 00:35:54,183 And you're doing work 360 00:35:54,383 --> 00:35:55,350 -With the fan? 361 00:35:55,550 --> 00:35:56,599 Yeah, absolutely. 362 00:35:57,200 --> 00:35:59,479 I mean, it takes a lot to move this fan. 363 00:36:04,910 --> 00:36:14,120 Anyway, we're right in the middle of this impulse technology charging, and we can see that the battery now is up to 13.3. 364 00:36:14,120 --> 00:36:15,169 And I think that's enough. 365 00:36:15,440 --> 00:36:17,299 *This is after how long have we been waiting? 366 00:36:17,690 --> 00:36:19,910 We've been waiting about an hour for this. 367 00:36:21,050 --> 00:36:26,149 And so what we're going to do is shut the machine off and watch where the battery comes down to. 368 00:36:26,600 --> 00:36:30,110 And you can see this is a totally different charge because the battery is not dropping. 369 00:36:32,740 --> 00:36:36,610 It's on a time charge, a negative time charge. 370 00:36:36,610 --> 00:36:41,829 So now all we want to do is we want to take the energy out of the battery. 371 00:36:41,840 --> 00:36:42,969 So we're going to do that again. 372 00:36:43,943 --> 00:36:45,378 we're gooing to load the battery, 373 00:36:45,578 --> 00:36:46,900 *you're going to turn the lights on. 374 00:36:46,930 --> 00:36:47,890 Yes. 375 00:36:47,890 --> 00:36:48,860 Okay. 376 00:36:48,860 --> 00:36:50,380 And so there we go. 377 00:36:51,430 --> 00:36:54,729 And then we're going to watch the meter here on this time charge. 378 00:36:57,690 --> 00:36:58,910 *Okay 12.07 379 00:36:59,110 --> 00:37:08,025 12. 07 And so remember last time that within a couple of minutes it was down to 11, 380 00:37:08,225 --> 00:37:11,460 *right, 12 right now. 381 00:37:11,460 --> 00:37:12,460 Yeah. 382 00:37:12,570 --> 00:37:16,409 So now it's going to you can see that the energy is in the battery. 383 00:37:17,310 --> 00:37:24,030 But this is a totally different kind of energy because it's been charged negatively. 384 00:37:28,200 --> 00:37:30,659 And then so lights are a lot brighter than what they. 385 00:37:34,790 --> 00:37:38,869 *Okay, So because it's negative energy, it's going to deplete that much slower. 386 00:37:39,320 --> 00:37:41,869 Yeah, it's a little bit slower than the positive charge. 387 00:37:42,650 --> 00:37:44,390 *Like what percentage? How much? 388 00:37:44,390 --> 00:37:46,190 Oh, maybe 5, 10%. 389 00:37:47,270 --> 00:37:53,157 But the point is that charge the battery negative wise on "Tesla's" impulse technology. 390 00:37:53,158 --> 00:37:59,246 Which nobody's ever converted his impulse technology to charging batteries. 391 00:37:59,330 --> 00:38:07,400 And that was the main function of this experiment was to to charge the battery with negative energy. 392 00:38:07,790 --> 00:38:12,289 We're just going to let it go here, see, and it's going to find a spot. 393 00:38:12,290 --> 00:38:14,869 It's just going to stay there because remember, it's still charging. 394 00:38:18,670 --> 00:38:19,856 *It's still charging? 395 00:38:20,056 --> 00:38:23,639 You know, it's still trying to charge itself from the ion movement. 396 00:38:24,310 --> 00:38:26,340 *Oh, the momentum. 397 00:38:26,350 --> 00:38:27,350 Right. 398 00:38:30,000 --> 00:38:31,350 *So how long will that 399 00:38:31,350 --> 00:38:33,059 see it has a little bit higher plateau this time. 400 00:38:33,420 --> 00:38:39,029 *Yeah. So how long will that? 401 00:38:39,030 --> 00:38:41,760 A little bit longer, maybe about 5 or 10 minutes longer. 402 00:38:43,590 --> 00:38:45,405 *So the Ions are still trying to move 403 00:38:45,605 --> 00:38:47,760 they're still moving, because if we disconnect the load. 404 00:38:52,370 --> 00:38:54,009 It's already passed ¿? 405 00:38:54,209 --> 00:38:55,820 *right back to 12.13. 406 00:38:56,270 --> 00:38:56,870 Right. 407 00:38:56,870 --> 00:38:58,670 Remember, this is a 30 amp load. 408 00:38:58,910 --> 00:38:59,750 *Right. 409 00:39:00,666 --> 00:39:03,170 and this is a 13 amp hour battery. 410 00:39:03,170 --> 00:39:05,420 So we're asking it to do a lot. 411 00:39:05,840 --> 00:39:10,719 And actually, let's just that ask it to do 60 amps. 412 00:39:20,480 --> 00:39:23,199 So now we're asking it to do 60 amps worth of work. 413 00:39:25,550 --> 00:39:27,469 And you can see it's on a plateau here. 414 00:39:29,630 --> 00:39:33,657 Not really moving down that quick, but that's 60 amp load. 415 00:39:35,570 --> 00:39:38,450 So that's way beyond this battery's capacity. 416 00:39:41,100 --> 00:39:42,749 I will take it down to 10.5. 417 00:39:44,010 --> 00:39:46,714 So we're going to draw that energy right down to 10.5. 418 00:39:46,715 --> 00:39:50,214 The we're going to tell the machine to charge it and we're going to take 30 amps from it. 419 00:39:53,560 --> 00:39:58,690 *11.24, 23. Yeah, it's pulling it down pretty fast. 420 00:39:58,960 --> 00:40:03,880 60 amp load for a 13 amp hour battery, which is like unheard of. 421 00:40:18,580 --> 00:40:22,730 It's quite a curve there. Right, "Rick"? 422 00:40:28,650 --> 00:40:31,830 +Of course, you don't want to do this too much to the battery. 423 00:40:32,100 --> 00:40:35,043 Yeah, you don't want to really do this to a battery. 424 00:40:35,044 --> 00:40:41,114 But just to prove our point that the impulse technology can charge this up from zero. We're going to take it out. 425 00:40:41,550 --> 00:40:45,959 *But actually, the negative energy is easier on the battery, isn't it? Than the positive energy. 426 00:40:46,290 --> 00:40:47,290 Yes. 427 00:40:48,690 --> 00:40:50,820 And there's no current involved in it. 428 00:40:58,280 --> 00:41:01,211 So as soon as we get to 10 429 00:41:01,411 --> 00:41:02,411 *83. 430 00:41:07,810 --> 00:41:15,970 I'd say that's a pretty good size load for a start battery and a garden battery at that, a 13 amp hour, 431 00:41:16,170 --> 00:41:24,369 you can see there's a lot of energy in the batteries because if you take one off, that's a 30 amp load. 432 00:41:24,370 --> 00:41:27,850 It should bounce, Come back up see? 433 00:41:27,850 --> 00:41:28,850 *Yeah. 434 00:41:30,690 --> 00:41:32,489 So we just go ahead and pull it down. 435 00:41:37,470 --> 00:41:38,470 *10.40. 436 00:41:38,520 --> 00:41:42,912 Yeah, we're just going to take it down to zero 437 00:41:43,112 --> 00:41:46,349 +it will draw all soon, surely. 438 00:41:51,850 --> 00:41:55,030 So that's way past where you'd want to take a battery. 439 00:41:55,100 --> 00:41:56,556 *It's diving down now. 440 00:41:56,557 --> 00:41:58,440 Well it's diving down but notice the lights. 441 00:42:09,620 --> 00:42:10,909 -So what happens if you 442 00:42:11,109 --> 00:42:12,615 now you're starting to see 443 00:42:12,815 --> 00:42:13,310 *yeah, the dimming? 444 00:42:13,340 --> 00:42:14,471 Yeah, the dimming 445 00:42:14,671 --> 00:42:17,200 +now it'll just take a quick dive 446 00:42:17,214 --> 00:42:20,060 it'll take a quick dive because we're depleting it completely. 447 00:42:21,320 --> 00:42:23,269 -So what happens if you keep doing this? 448 00:42:23,270 --> 00:42:24,140 We keep doing this. 449 00:42:24,140 --> 00:42:29,150 We're just going to destroy the battery because the storage battery is what it implies. 450 00:42:29,540 --> 00:42:31,219 It stores energy for use. 451 00:42:32,270 --> 00:42:34,219 It's not made to do this constantly. 452 00:42:34,700 --> 00:42:37,040 So we have to dive it down. 453 00:42:37,040 --> 00:42:40,250 But look here, we just go back to the 30 amp load. 454 00:42:43,160 --> 00:42:44,599 And of course, we depleted it. 455 00:42:47,480 --> 00:42:52,159 And we'll let it rest for a minute, see where it recovers to, and then we'll take the rest of the energy out of it. 456 00:42:54,040 --> 00:42:56,329 So now I can, we can take the rest. 457 00:43:03,270 --> 00:43:06,600 So we let it recover a little bit, take some more out of it. 458 00:43:07,140 --> 00:43:13,079 So what I want to do is to show you... 459 00:43:36,960 --> 00:43:38,300 *Okay, so you started the. 460 00:43:39,120 --> 00:43:40,260 We started the machine. 461 00:43:54,971 --> 00:43:57,769 We'll let it run for a minute or so. 462 00:43:58,800 --> 00:44:00,810 And then take some more energy out of it and. 463 00:44:04,960 --> 00:44:11,349 What we want to do is potentialize these ions and then let them move by themselves. 464 00:44:13,570 --> 00:44:18,783 -So if you destroy the battery that's complete, you can't have a reconstitution again? 465 00:44:18,784 --> 00:44:28,119 No, once you completely warp the plates in the battery and they short off or enough material breaks off, then you can't do anything with that battery. 466 00:44:28,330 --> 00:44:34,960 You could wash it out 100 times, but you no longer have any material in the battery to use. 467 00:44:35,380 --> 00:44:38,610 *So that's an entirely different characteristic on sulfation. 468 00:44:38,770 --> 00:44:39,160 Yes. 469 00:44:39,160 --> 00:44:40,719 *Mechanical defamation of the plates. 470 00:44:40,810 --> 00:44:42,699 We're not giving it time to sulfate. 471 00:44:43,060 --> 00:44:45,856 *Right. So what causes sulfation? 472 00:44:45,857 --> 00:44:48,459 When you deplete the battery and let it sit there 473 00:44:48,760 --> 00:44:49,760 *okay. 474 00:44:51,930 --> 00:44:55,142 +Or a positive charge, charging it with a regular conventional charger 475 00:44:55,143 --> 00:44:58,289 Charging with regular current will cause sulfation too. 476 00:44:59,010 --> 00:44:59,521 Because it's 477 00:44:59,721 --> 00:45:01,199 *if you charge too fast. 478 00:45:01,230 --> 00:45:01,650 Yeah. 479 00:45:02,100 --> 00:45:03,989 Not what the battery really wants to see. 480 00:45:04,170 --> 00:45:06,114 +You're producing heat 481 00:45:06,314 --> 00:45:09,030 *so the heat produces the sulfation. 482 00:45:10,030 --> 00:45:11,030 Yeah. 483 00:45:12,460 --> 00:45:20,920 You can see for just one simple wire, that we're just taking the negative end of the wire. 484 00:45:20,920 --> 00:45:25,540 In other words, we're just using it as "Tesla's" one wire. 485 00:45:26,440 --> 00:45:28,269 We're just taking this one wire. 486 00:45:32,240 --> 00:45:34,160 And we're creating this impulse. 487 00:45:39,590 --> 00:45:47,030 And then all we're doing is tapping across this one wire with our rectifier. 488 00:45:53,310 --> 00:45:54,900 And then we're pulling that off. 489 00:45:57,190 --> 00:45:58,190 To the battery. 490 00:46:05,160 --> 00:46:08,730 So we can't ever increase any of the current. 491 00:46:10,970 --> 00:46:14,160 It's stationery. It's stays. 492 00:46:14,360 --> 00:46:18,110 The only thing we can do then is produce these nodes. 493 00:46:21,290 --> 00:46:22,370 Across the wire. 494 00:46:26,160 --> 00:46:28,019 And that's what we're tapping off of. 495 00:46:31,380 --> 00:46:40,169 It just looks like a normal circuit, except that it's one wire we're getting the energy from one wire. 496 00:46:40,400 --> 00:46:44,250 We're not pulling it from the primary battery at all. 497 00:46:44,910 --> 00:46:47,219 *And just to reiterate which wire on the machine?. 498 00:46:48,000 --> 00:46:49,000 Okay. 499 00:46:50,570 --> 00:46:53,508 *I know we covered that earlier, but just 500 00:46:53,708 --> 00:46:57,090 we're just using one of these wires here, it's one wire. 501 00:46:57,860 --> 00:46:59,600 So we're using this as one wire. 502 00:47:00,350 --> 00:47:01,640 And this is one wire. 503 00:47:01,730 --> 00:47:05,280 Just one coil just like this. 504 00:47:09,340 --> 00:47:10,340 Just one wire. 505 00:47:11,650 --> 00:47:16,840 We're across this one wire, as we showed on the blackboard there. 506 00:47:19,600 --> 00:47:23,409 So let's pull some some energy from this. 507 00:47:23,740 --> 00:47:28,179 30 amp rate and see if it did put it back. 508 00:47:33,430 --> 00:47:35,889 Though we didn't give it any time. We just told it to move. 509 00:47:37,540 --> 00:47:43,606 It's a certain, but you could see that it did charge it back up to that point 510 00:47:43,806 --> 00:47:45,969 +while doing all that mechanical work. 511 00:47:46,090 --> 00:47:48,729 Yeah. While doing all that mechanical work. 512 00:47:49,300 --> 00:47:51,189 So we don't want to kill this battery. 513 00:47:56,510 --> 00:48:01,250 During the course of recovery, now if we leave the battery like this in this condition. 514 00:48:02,090 --> 00:48:04,010 This is what it's going to highly sulfate. 515 00:48:06,800 --> 00:48:09,619 And that's what people basically do with batteries. 516 00:48:10,160 --> 00:48:13,789 They run them out until there's no more energy in them. 517 00:48:13,790 --> 00:48:19,129 And then they just well, I'm going to charge it tomorrow or the next day and they forget all about it. 518 00:48:19,130 --> 00:48:24,139 And then when they go to use the battery, it's all faded and they can't do anything with it. 519 00:48:31,530 --> 00:48:41,520 This is the "Bedini-Cole" window motor running with just one trigger, one trigger magnet built big enough that you can see the internal workings of it. 520 00:48:44,700 --> 00:48:46,920 This is the actual timing mechanism. 521 00:48:46,920 --> 00:48:56,939 You can see just one magnet going around and it's alternating switching poles because on the window motor you have north and south poles all the way around it. 522 00:48:59,310 --> 00:49:01,619 And we're using once again, just one ¿?. 523 00:49:04,670 --> 00:49:10,129 And here's the only level that we can get out of the motor for recharge. 524 00:49:10,640 --> 00:49:14,850 But it's not good enough to charge a secondary battery. 525 00:49:14,871 --> 00:49:18,971 And I'm going to do that in a second here. I'm going to put a secondary battery here. 526 00:49:30,660 --> 00:49:39,189 and what I want to say is this battery recovered all by itself at 12.75 after the negative charging. 527 00:49:40,740 --> 00:49:44,429 Now, what we're trying to do is charge it with the back EMF. 528 00:49:45,480 --> 00:49:52,050 And we can see here that the vacuum method is incapable of charging the battery. 529 00:49:52,050 --> 00:49:53,489 Otherwise it'd be moving upward. 530 00:49:54,390 --> 00:49:55,390 And it's not. 531 00:49:57,910 --> 00:50:00,940 So what's this signal actually look like? 532 00:50:07,040 --> 00:50:11,809 It's very efficient motor and we'll just running it that one trigger. 533 00:50:12,530 --> 00:50:13,530 *Who is "Cole"? 534 00:50:14,150 --> 00:50:23,690 "Cole" was a partner of mine that I knew from the audio days in our amplifier company. 535 00:50:24,800 --> 00:50:29,659 And so "Ron Cole" and myself develop these motors from a little prototype that I had. 536 00:50:30,620 --> 00:50:35,539 And "Cole" actually developed all the switching for the motor. 537 00:50:36,080 --> 00:50:43,489 But as you can see here, "Cole" calls it "counter electromagnetic" force. 538 00:50:44,120 --> 00:50:52,069 And you can see here, this isn't like the monopole at all, and that the vacuum F is much lower than what the actual. 539 00:50:53,840 --> 00:50:58,310 These are the two poles switching north and south. 540 00:51:00,170 --> 00:51:01,170 And then this. 541 00:51:01,340 --> 00:51:04,190 This is the back EMF that you're recovering in between. 542 00:51:05,300 --> 00:51:07,670 And so it's way below the battery voltage. 543 00:51:08,060 --> 00:51:13,719 So therefore, if you turn around and you look at this battery on the meter, it hasn't, it won't move it. 544 00:51:13,720 --> 00:51:14,720 It's going to move. 545 00:51:14,990 --> 00:51:16,849 There's not enough there to keep recovering. 546 00:51:17,440 --> 00:51:24,019 What the battery is doing is from the negative energy charge, it's recovering itself that far. 547 00:51:24,020 --> 00:51:25,543 *And this is the same battery we just 548 00:51:25,544 --> 00:51:26,457 that's the same battery 549 00:51:26,458 --> 00:51:27,700 *we just used in the previous 550 00:51:27,701 --> 00:51:31,340 we'll pull it out again and we pull the energy out of it again. 551 00:51:33,057 --> 00:51:36,314 And you can see it's not moving up very good at all. 552 00:51:37,700 --> 00:51:43,179 And the other battery over there next to the meter is the scope is just the trigger signal. 553 00:51:43,190 --> 00:51:44,669 Yeah, that's just the trigger signal. 554 00:51:44,870 --> 00:51:53,600 And that's what you see right here on, on, on, on and the back EMF is in between here. 555 00:51:54,890 --> 00:52:03,710 When it collapses and you can see that when you use conventional circuitry that you have, you have just locked yourself in this loop. 556 00:52:05,840 --> 00:52:10,940 And you can't get you can't get any energy out of this system, out of this coil. 557 00:52:11,560 --> 00:52:12,560 However. 558 00:52:15,490 --> 00:52:18,660 Moving towards the window motor. 559 00:52:20,140 --> 00:52:26,170 If you were to run this on a monopole circuit, you can recover all kinds of energy out of this. 560 00:52:29,110 --> 00:52:33,429 In fact, we may set that up and show that. 561 00:52:34,060 --> 00:52:35,060 *Okay. 562 00:52:38,300 --> 00:52:46,289 In a few minutes here, but we just want you to pay close attention to, you would be waiting forever for it. 563 00:52:46,310 --> 00:52:50,870 This battery has recharged itself without the aid of this motor. 564 00:52:50,930 --> 00:52:54,469 *Right. Since in the break that we took to set this experiment up. 565 00:52:54,530 --> 00:52:57,690 Right. Which has been about, what, 3 minutes, 4 minutes. 566 00:52:58,370 --> 00:53:04,510 Okay. This battery is just recovering itself from the negative energy charge, but it is totally useless. 567 00:53:04,520 --> 00:53:07,939 We have to have a 3 volt battery for this thing to do anything. 568 00:53:07,940 --> 00:53:11,690 And then it would load down the motor because it wouldn't be able to... 569 00:53:14,450 --> 00:53:18,320 *So what is the purpose of the window motor then? 570 00:53:18,770 --> 00:53:23,870 Well, the window motor is a high torque motor and a very efficient motor. 571 00:53:24,830 --> 00:53:34,699 But I want to use it as an example here of showing that it's impossible when you have this closed loop system. 572 00:53:35,600 --> 00:53:44,720 All three energy systems are open in nature, meaning there's some place that nature can put its energy into. 573 00:53:46,130 --> 00:53:50,150 This is incapable of doing that the way the circuitry is. 574 00:53:50,150 --> 00:53:53,429 It's closed loop. 575 00:53:53,450 --> 00:53:57,243 Nothing can enter the system, nothing can get out of the system 576 00:53:57,443 --> 00:54:01,639 as you can see by this indication that you can't recharge the battery. 577 00:54:06,260 --> 00:54:07,260 You see my point? 578 00:54:07,400 --> 00:54:09,720 You have to have an open loop system, "Tony". 579 00:54:09,920 --> 00:54:13,639 you have to have an open loop system where you can't gather nature's energy. 580 00:54:15,260 --> 00:54:20,449 So maybe I could get rig, get one of those transistors. 581 00:54:22,480 --> 00:54:23,860 We'll turn this into a monopole. 582 00:54:25,810 --> 00:54:26,990 Yeah. Get a transistor. 583 00:54:26,990 --> 00:54:32,530 You know, get one of those MJF and get a 680 ohm resistor and a diode. 584 00:54:33,370 --> 00:54:37,360 And we'll turn this into a monopole in front of everybody. 585 00:54:38,950 --> 00:54:45,543 We're going to do a little conversion, and we're going to take this window motor and get rid of the closed loop circuitry. 586 00:54:45,544 --> 00:54:50,971 And turn it into something that can recharge the second battery 587 00:54:50,972 --> 00:54:56,080 And so that we can prove that nature wants to run into an open loop system. 588 00:54:57,100 --> 00:54:58,100 Right. 589 00:54:58,330 --> 00:55:03,130 And we want to sort of take advantage of this idea. 590 00:55:09,630 --> 00:55:12,599 We want to take advantage of the impulse technology. 591 00:55:16,930 --> 00:55:17,930 On this coil. 592 00:55:19,060 --> 00:55:23,390 So we're going to convert the motor and then we're just going to go across these two wires. 593 00:55:24,250 --> 00:55:27,760 We're going to just supply an impulse with its own trigger. 594 00:55:33,840 --> 00:55:36,900 And all of a sudden with the impulse technology. 595 00:55:40,840 --> 00:55:45,280 We're going to develop the energy we need in a negative form to charge this battery. 596 00:55:48,450 --> 00:55:58,530 What we're going to do here is we're going to convert this window motor to impulse technology to show you that this battery is going to charge back up. 597 00:56:00,330 --> 00:56:04,409 So we're going to hook up just a simple little monopole circuit. 598 00:56:09,450 --> 00:56:14,159 Because it's all it needs to be very basic to gather this energy. 599 00:56:16,140 --> 00:56:17,550 So we're just going to hook it up here. 600 00:56:17,590 --> 00:56:18,948 *What and what is this? 601 00:56:19,148 --> 00:56:21,840 This is the transistor and this is going to become the trigger. 602 00:56:24,490 --> 00:56:26,379 And we're going to use two windings here. 603 00:56:27,700 --> 00:56:35,079 Okay, off this and we're just going to convert it to the impulse motor or the monopole. 604 00:56:37,886 --> 00:56:39,085 +Without the bridge first 605 00:56:39,086 --> 00:56:40,371 Yeah, without the bridge first 606 00:57:00,200 --> 00:57:02,400 +You're going to use a few strands out of all these 607 00:57:02,401 --> 00:57:04,050 yes, just use a few strands. 608 00:57:51,150 --> 00:57:52,150 *What is that noise? 609 00:57:52,410 --> 00:57:53,410 That's the motor. 610 00:57:56,160 --> 00:57:56,980 *Really? 611 00:57:56,980 --> 00:57:59,890 Yeah, actually, the resistors a little bit too high. 612 00:58:03,460 --> 00:58:06,779 One more 60... 613 00:58:07,230 --> 00:58:08,760 Come on over here so they can hear. 614 00:58:09,420 --> 00:58:14,760 And we're going to measure this, and you can see this, we don't have a tune yet. 615 00:58:21,950 --> 00:58:22,950 And you can see here, 616 00:58:23,150 --> 00:58:26,329 *what have you what have you done here? You attached the resistor. 617 00:58:26,690 --> 00:58:29,330 Yeah. We're just going to run it as a monopole. 618 00:58:30,110 --> 00:58:33,619 But you can see here that it's in osilation right now. 619 00:58:35,030 --> 00:58:36,230 *Where's that noise coming from? 620 00:58:36,230 --> 00:58:37,580 That's coming from this coil. 621 00:58:44,930 --> 00:58:45,930 *Okay. 622 00:58:46,190 --> 00:58:47,190 So we're just. 623 00:59:08,880 --> 00:59:11,639 *So what was the value of the initial, of the first resistor? 624 00:59:14,540 --> 00:59:15,540 680 Ohms. 625 00:59:16,070 --> 00:59:17,845 *And so now you've replaced it or added 626 00:59:18,044 --> 00:59:19,020 yes I did, I added. 627 00:59:19,220 --> 00:59:25,529 I lowered the resistance because remember, we're dealing with a high impedance here, 628 00:59:25,729 --> 00:59:29,209 because now we're going to hook up the rectifier. 629 00:59:29,210 --> 00:59:32,420 And actually we're still not low enough. Like amount. 630 00:59:34,760 --> 00:59:35,690 But that's okay. 631 00:59:35,690 --> 00:59:36,949 Let's just go ahead and do it. 632 00:59:43,230 --> 00:59:50,010 So once again, we're just going to go across this coil, which is a one wire system. 633 01:00:05,810 --> 01:00:06,829 It's actually too high. 634 01:00:08,490 --> 01:00:09,490 But. 635 01:00:17,140 --> 01:00:19,629 We have to tune it so we can get it at the right ratio 636 01:00:24,100 --> 01:00:25,783 *so you're going to add another resistor 637 01:00:25,983 --> 01:00:27,339 we're going to drop it down to worth. 638 01:00:28,030 --> 01:00:29,924 It's going to run 639 01:00:40,250 --> 01:00:42,570 it's really still too high. 640 01:00:46,600 --> 01:00:47,600 It's still too high. 641 01:00:49,300 --> 01:00:50,380 Wants a lower... 642 01:00:52,150 --> 01:00:53,130 So, like 100 Ohms 643 01:01:22,580 --> 01:01:23,580 *So we're still tuning the? 644 01:01:23,840 --> 01:01:25,340 Yeah, we're still tuning the motor. 645 01:01:28,260 --> 01:01:33,849 So what we've done is we've just tuned the impedance of this coil 646 01:01:34,049 --> 01:01:40,469 and now you can see here that we're converting this to an impulse technology. 647 01:01:44,860 --> 01:01:46,749 See the waves appear? 648 01:01:59,510 --> 01:02:04,309 And now we're going to apply those to this rectifier. 649 01:02:06,360 --> 01:02:07,307 *Which rectifier? 650 01:02:07,507 --> 01:02:08,507 to this Rectifier. 651 01:02:09,030 --> 01:02:14,969 We're going to take these pulses and we're going to use this one coil again. 652 01:02:20,960 --> 01:02:26,429 +Where you can see the scope of this is connected to one of your pulses 653 01:02:38,660 --> 01:02:44,390 okay, so now we're just using this as one wire, one loop, just one wire. 654 01:02:44,870 --> 01:02:48,889 And you can see with this the motor is accelerating. 655 01:02:49,370 --> 01:02:53,329 And now we want to apply the impulse technology to charging this battery. 656 01:02:54,110 --> 01:02:56,090 so if we look at where this battery is here. 657 01:03:24,220 --> 01:03:25,729 *So now we're hooked up. 658 01:03:25,740 --> 01:03:29,679 We're putting the charge in because you can see it starting to move. 659 01:03:43,700 --> 01:03:49,219 Remember, this was a completely drained battery because we didn't bother recharging it. 660 01:03:49,400 --> 01:03:54,980 *Right. I mean, it regenerated a little bit from the radiant, from the negative. 661 01:03:54,980 --> 01:03:55,980 Exactly. 662 01:03:57,200 --> 01:04:02,886 So now we're just across one of these loops. But this is a very high impedance loop. 663 01:04:06,830 --> 01:04:09,651 *So that loop is entirely one wire 664 01:04:09,851 --> 01:04:10,519 just one wire. 665 01:04:10,700 --> 01:04:13,219 *Right. And how long is this going to take? 666 01:04:13,790 --> 01:04:19,999 Well, it's going to take a little bit longer because this is like a conversion from another model. 667 01:04:20,000 --> 01:04:23,089 We can actually probably change this. 668 01:04:33,900 --> 01:04:38,900 see how it's now down below a little bit more. 669 01:04:42,940 --> 01:04:45,483 *Oh, yes moved it down under the 670 01:04:45,683 --> 01:04:46,460 +22. 671 01:04:46,660 --> 01:04:47,660 Let's see what happens. 672 01:04:49,540 --> 01:04:50,709 *So you're still tuning the circuit? 673 01:04:51,370 --> 01:04:52,139 Yeah. Just to 674 01:04:52,339 --> 01:04:53,519 +Is going to push a little more current. 675 01:04:58,200 --> 01:04:59,969 So you can see now it's going to start to create. 676 01:04:59,970 --> 01:05:01,770 +The wheel's going to spin faster 677 01:05:01,771 --> 01:05:04,019 yeah, the wheel's going to go faster. 678 01:05:08,250 --> 01:05:13,679 Remember, it's also trying to generate at the same time because it's north and south poles. 679 01:05:14,580 --> 01:05:16,439 So it's inside of a loop. 680 01:05:16,950 --> 01:05:20,489 So it wants to generate at the same time, it's trying to take the radiant. 681 01:05:21,630 --> 01:05:27,000 But this is an open loop system being that it's using the monopole trigger. 682 01:06:15,843 --> 01:06:23,214 This is a little bit difficult to do, "Rick", because this one here is not a monopole, it's slowing down. 683 01:06:35,820 --> 01:06:38,860 you have to relieve the current in the loop. 684 01:06:44,314 --> 01:06:47,343 *What do you mean you have to relieve the current in the loop? 685 01:06:47,344 --> 01:06:54,430 you have to stop the current in time so that nature can fill in with the negative in. 686 01:06:59,430 --> 01:07:05,986 So let's just get a diode. Let's just the diode get rid of the rectifier and we'll run it like a monopole. 687 01:07:10,140 --> 01:07:14,729 we'll probably get a little more out of it. 688 01:07:27,800 --> 01:07:32,243 Come on over here "Tony" and look at these spikes. 689 01:07:40,080 --> 01:07:41,699 totally different waveforms see?. 690 01:07:44,970 --> 01:07:47,820 *And this is the different waveform from what? 691 01:07:48,420 --> 01:07:55,709 Well, in other words, from converting this motor from a bipolar to just a monopole. 692 01:07:56,400 --> 01:07:57,400 *Right. 693 01:07:58,710 --> 01:08:00,389 You can see now that spikes are up. 694 01:08:01,110 --> 01:08:02,110 *Right. 695 01:08:02,760 --> 01:08:04,379 Let's get them down here. 696 01:08:06,700 --> 01:08:13,913 And see, this is the AC generation that is trying to generate in this loop 697 01:08:20,160 --> 01:08:25,680 So now what we do is we go to this positive. 698 01:08:27,090 --> 01:08:28,420 *Which positive? 699 01:08:28,620 --> 01:08:33,239 This positive that comes from this battery to this negative. 700 01:08:35,460 --> 01:08:36,460 On this battery. 701 01:09:01,510 --> 01:09:02,559 come back over here. 702 01:09:08,240 --> 01:09:09,240 *What have you just done? 703 01:09:09,590 --> 01:09:13,039 We've just captured the energy, and now we're putting it to this battery. 704 01:09:13,850 --> 01:09:15,470 *Okay. What did you change in the circuitry? 705 01:09:16,040 --> 01:09:19,189 We just added a diode across this coil. 706 01:09:20,000 --> 01:09:21,140 Back to this battery. 707 01:09:21,170 --> 01:09:22,170 *Okay. 708 01:09:25,609 --> 01:09:27,970 *now what's on the scope? It's changed again. 709 01:09:27,971 --> 01:09:30,129 This is... Right. Exactly. 710 01:09:32,540 --> 01:09:35,000 See, this is where it's trying to generate. 711 01:09:42,870 --> 01:09:47,989 These are the spikes that we want to capture and that's the AC generation point. 712 01:09:48,930 --> 01:09:50,370 It's a North and South Pole. 713 01:09:50,700 --> 01:09:53,929 *So you have negative energy superimposed on AC? Yes. 714 01:09:58,850 --> 01:09:59,850 *That's pretty interesting. 715 01:10:00,620 --> 01:10:09,543 Yeah, we just wanted to go back to this battery and see this battery right now with a positive push is having a very hard time. 716 01:10:09,544 --> 01:10:12,829 Trying to convert back from the negative energy. 717 01:10:12,830 --> 01:10:21,199 This is what "Tom Bearden" talks about after you've charged a battery with negative energy, that it eats the positive energy up. 718 01:10:22,250 --> 01:10:27,350 *Right. And it just sits there for quite a while, which is what it's doing right now. 719 01:10:27,350 --> 01:10:29,071 Which is what it's doing right now. 720 01:10:33,110 --> 01:10:34,699 It's having a very hard time. 721 01:10:35,900 --> 01:10:39,399 *And so someone that doesn't that really knows what's going on. 722 01:10:39,657 --> 01:10:42,257 *Can tell by the way a battery responds. 723 01:10:42,457 --> 01:10:44,449 By the way it reacts whether it's been charged 724 01:10:45,290 --> 01:10:46,720 this is an indicator. 725 01:10:46,730 --> 01:10:51,400 This is exactly what happened to "Jim Watson's" batteries. 726 01:10:51,401 --> 01:10:59,929 See now it's starting to take the opposite charge and move upward as soon as it gets rid of the negative time. 727 01:11:00,900 --> 01:11:01,900 watch 728 01:11:04,020 --> 01:11:06,209 is having a hard time doing it, but is going to do it. 729 01:11:07,314 --> 01:11:09,814 *So when they stole "Jim Watson's" battery, for "Tesla" cars 730 01:11:09,822 --> 01:11:10,770 This is what they measured. 731 01:11:10,890 --> 01:11:14,520 They put it on a conventional charger and tried to charge it out. 732 01:11:14,760 --> 01:11:17,329 And it will just sit there and eat the electrons up. 733 01:11:18,090 --> 01:11:21,829 And so this is what we're showing right here. This is what it's doing. 734 01:11:22,350 --> 01:11:23,430 it's just eating it up. 735 01:11:23,880 --> 01:11:27,959 *So it's the hole, the holes are consuming the electrons. Yes, exactly. 736 01:11:27,960 --> 01:11:32,369 *Until the holes are filled and then it'll start. Then it will convert. 737 01:11:32,371 --> 01:11:37,529 But remember that a negative charge battery with negative time 738 01:11:37,734 --> 01:11:42,449 is going to take, you know, the positive time there, right?. 739 01:11:42,450 --> 01:11:44,669 It's going to take a while to bleed off this charge. 740 01:11:47,020 --> 01:11:50,799 And so this is what's actually *It's really not bleeding it off, it's absorbing it. 741 01:11:50,800 --> 01:11:53,889 Well, it's not a convert. *Yeah, Converting. 742 01:11:53,890 --> 01:12:00,271 You want to put a positive charge back and it's negative. 743 01:12:01,180 --> 01:12:06,086 it's just going to eat whatever electron current there is up. 744 01:12:08,590 --> 01:12:12,579 until it gets into a point to where it looks normal to it. 745 01:12:13,930 --> 01:12:15,609 And this is what you're watching right here. 746 01:12:15,940 --> 01:12:16,940 *Right. 747 01:12:20,000 --> 01:12:25,443 *And so once the absorption process. Well you see they keep trying to go back in time. 748 01:12:26,090 --> 01:12:28,839 *But once the process is completed, where this will go? To 13? 749 01:12:29,090 --> 01:12:29,960 It'll go up. 750 01:12:30,500 --> 01:12:39,300 Once all the negative holes are gone, what I call negative holes are gone. Then this will work like a normal battery and go back up. 751 01:12:42,570 --> 01:12:46,619 it's having a really hard time to get there, but it will, is going to do it. 752 01:12:50,740 --> 01:12:51,740 *Yeah, it's fascinating. 753 01:13:01,290 --> 01:13:04,259 *It's pretty much trying to stick at 12.80 now. 754 01:13:04,650 --> 01:13:09,427 It's converting slowly, but it takes a little bit of time 755 01:13:10,500 --> 01:13:12,779 *and it'll get all the way back up to 13. 756 01:13:12,780 --> 01:13:17,160 Yea, it'll go. But you have to fill in all these holes. 757 01:13:25,670 --> 01:13:30,499 We can force this with current to go back to a positive time charge battery. 758 01:13:31,940 --> 01:13:33,139 But we don't want to do that. 759 01:13:33,950 --> 01:13:36,079 We want the ions to move themselves. 760 01:13:43,630 --> 01:13:44,630 There we go. 761 01:13:44,980 --> 01:13:46,539 it's starting to swing upward now 762 01:13:49,370 --> 01:13:51,439 it still wants to revert in time. 763 01:13:51,440 --> 01:13:53,299 You follow what I'm saying? 764 01:13:53,300 --> 01:13:57,979 Still want to go backwards so it doesn't really know where to go here. 765 01:13:58,820 --> 01:14:00,830 *It's hitting 80 now more than it was. 766 01:14:07,750 --> 01:14:09,700 *yeah, it's pretty much stable at 80 now. 767 01:14:09,730 --> 01:14:13,670 Yeah. It's starting to convert, and starting to fill in those holes. 768 01:14:14,680 --> 01:14:18,760 That "Tom Bearden" talks about when they took "Watson's" batteries. 769 01:14:20,530 --> 01:14:24,249 And the reason they took the battery is to see if it was really negative energy. 770 01:14:33,340 --> 01:14:34,490 *It's a slow process. 771 01:14:37,040 --> 01:14:39,290 *Does it come with a rush at the end? or does it. 772 01:14:39,291 --> 01:14:41,059 No, it will. *It fights it all the way. 773 01:14:41,060 --> 01:14:42,079 it's gonna fight it. 774 01:14:47,530 --> 01:14:50,260 It's pretty much going to go upward now. 775 01:14:51,601 --> 01:14:53,771 *it's still flipping. Yeah. 776 01:14:57,040 --> 01:14:58,930 so we stopped the machine. 777 01:14:59,170 --> 01:15:00,170 Right. 778 01:15:03,370 --> 01:15:04,370 It's going to revert. 779 01:15:07,970 --> 01:15:09,480 *So you just disconnected it?. 780 01:15:09,670 --> 01:15:10,670 I just disconnected it. 781 01:15:11,330 --> 01:15:12,649 So there's no more energy. 782 01:15:16,910 --> 01:15:20,749 You can see that is going to continue to fight it. 783 01:15:34,030 --> 01:15:41,050 Now the way to get rid of this right, the way to make this operate correctly, is to disconnect the battery. 784 01:15:44,510 --> 01:15:45,920 Remove it from the system. 785 01:15:49,390 --> 01:15:51,329 put a positive charge on. 786 01:15:58,110 --> 01:15:59,110 +You want it to go here? 787 01:15:59,610 --> 01:16:03,780 Yeah, because what we want to do is we want to fill in this holes. 788 01:16:21,720 --> 01:16:22,720 So there we go. 789 01:16:24,380 --> 01:16:27,570 now boom 790 01:16:29,580 --> 01:16:30,580 *sledgehammer approach 791 01:16:30,840 --> 01:16:32,280 yeah. Sledgehammer approach. 792 01:16:32,700 --> 01:16:35,550 To bring it back to normal condition. 793 01:16:39,940 --> 01:16:43,389 It's even having a hard time at 10 amps, doing this. 794 01:16:54,480 --> 01:17:01,770 I mean, we're pushing 10 continuous amps of current here to try to bring this thing back. 795 01:17:03,060 --> 01:17:09,689 *So what should this ultimately be? Reads 15 or 14. It will cut off and 14 something. 796 01:17:09,690 --> 01:17:15,090 but we don't have that kind of time because yeah, this is going to take all night to do this right. 797 01:17:18,270 --> 01:17:21,657 You can see the very slow process to fill it in. *Right. 798 01:17:32,690 --> 01:17:39,979 I've seen them to where they become negatively charged and you go to try to get that thing back in the breaker. 799 01:17:39,980 --> 01:17:42,800 And this thing is pop, pop, pop and that's it. 800 01:17:48,020 --> 01:17:51,810 i mean this going pretty slow for 10 amps. 801 01:17:52,760 --> 01:17:55,759 +Yes, for such a little battery. Yes for such a little battery. 802 01:17:55,760 --> 01:17:58,249 So we have like altered this battery. 803 01:18:00,440 --> 01:18:02,264 *Have you altered it permanently or? 804 01:18:02,265 --> 01:18:04,290 Altered it in time just for this period 805 01:18:05,060 --> 01:18:06,199 We've been working on it. 806 01:18:06,380 --> 01:18:16,129 So once we can straighten this out a little bit and just sometimes require charging and discharging and charging and discharging... 807 01:18:16,850 --> 01:18:22,571 So let's take it off. These are hot now, because it fights it all the way. 808 01:18:30,410 --> 01:18:34,809 and then, of course, what we would do is 809 01:18:35,009 --> 01:18:37,527 let's see where are our lights? 810 01:18:37,727 --> 01:18:40,100 *Lights over there. Put them over there. 811 01:18:40,101 --> 01:18:41,100 Okay. 812 01:19:02,800 --> 01:19:05,114 *So what are we going to do now? We're going to 813 01:19:05,115 --> 01:19:08,619 we're going to drain it because we want to get rid of this negative charge. 814 01:19:09,643 --> 01:19:13,771 I want it to act like a normal battery. 815 01:19:26,030 --> 01:19:31,335 The negative charge the battery can revert itself in time 816 01:19:31,535 --> 01:19:34,220 See it's not going down very quick. 817 01:19:38,950 --> 01:19:41,650 We're going to get it out so that we can watch it do it. 818 01:19:45,060 --> 01:19:46,859 In other words, we have to get rid of this charge. 819 01:19:48,270 --> 01:19:53,681 So if I have to take the battery to zero, which is not recommended 820 01:19:53,881 --> 01:19:58,109 to empty it out so that I can get it conditioned back. 821 01:20:03,543 --> 01:20:07,180 now, negative charge moves very strange on the battery. 822 01:20:09,280 --> 01:20:14,739 When you take the negative energy and charge the battery you do something different to the battery, you alter it. 823 01:20:16,000 --> 01:20:19,214 So you can see here that we're just going to bring it down. 824 01:20:19,215 --> 01:20:25,629 "Tony" we cant light the filaments? Because it's the only way that I can try to revert it back. 825 01:20:28,780 --> 01:20:30,443 -How did you discover that? 826 01:20:30,520 --> 01:20:39,170 Oh, it's been known ever since "Jim Watson" and the first energy free energy motors that we did 827 01:20:39,171 --> 01:20:44,370 that when you charge it negative wise,a normal charge you can't fill in the holes. 828 01:20:46,540 --> 01:20:48,340 *How long did you work with the "Watson"? 829 01:20:49,910 --> 01:20:51,999 Probably two years before he did the motor. 830 01:20:56,040 --> 01:21:04,014 But remember that this motor came out of that little little book that I wrote in the beginning "Bedini's free energy generator". 831 01:21:05,070 --> 01:21:10,086 All right here you're going to watch. We're going to actually pull this down. 832 01:21:16,880 --> 01:21:21,740 I'm not quite certain we can get it all out right here, in during our filming process. 833 01:21:23,210 --> 01:21:25,729 I mean, you would normally never do this to a battery. 834 01:21:29,690 --> 01:21:30,920 +Unless you left the lights on your car 835 01:21:33,770 --> 01:21:34,640 -who hasn't? 836 01:21:37,743 --> 01:21:42,829 Yes, but normally when you leave your life in the car and the battery recovers itself. 837 01:21:42,830 --> 01:21:47,914 You're going to put in a positive charge on it's just going to come back up. 838 01:21:48,220 --> 01:21:51,938 But this thing is really fighting the negative charge 839 01:21:52,138 --> 01:21:57,313 and that's what I noticed about "Tesla's" impulse technology, 840 01:21:57,314 --> 01:22:06,039 that once you charge the battery with that type of energy, you have a very difficult time trying to ever get a positive charge in it again. 841 01:22:11,960 --> 01:22:17,360 "Tesla's" one wire system is very strange, and the energy is tight. 842 01:22:18,770 --> 01:22:23,243 It's moving back and forth down the wire in time 843 01:22:23,343 --> 01:22:25,760 and you can see here, "Tony", we're down to three. 844 01:22:28,840 --> 01:22:34,329 *What exactly do you mean? You say it's moving back in time. It waxes and wanes back and forth. 845 01:22:34,960 --> 01:22:41,840 you know, it's an energy pump. The impulse technology makes the vacuum energy. 846 01:22:41,860 --> 01:22:49,959 I mean, it's at this time, at one point, in this time and this time, and this time, and this time it keeps going back and forth 847 01:22:50,620 --> 01:22:53,739 *but you're not you're not messing with a time stream, per se. 848 01:22:53,800 --> 01:22:55,870 Well, you are messing with the time of the battery. 849 01:22:58,240 --> 01:23:01,431 *But not with the general time stream 850 01:23:01,631 --> 01:23:05,499 I've seen on one wire systems charging batteries. 851 01:23:05,500 --> 01:23:08,709 The batteries completely lose the electrolyte and crystallize. 852 01:23:08,786 --> 01:23:10,869 I reported that on the.... 853 01:23:13,660 --> 01:23:16,943 And I stopped goofing around with that. 854 01:23:16,944 --> 01:23:24,043 Because no matter what gel cell I put on there the next morning to come in and you could rattled it like a maraca 855 01:23:24,044 --> 01:23:31,686 I had to throw out all the batteries because it seemed like it's sucking the energy out of the battery. 856 01:23:31,687 --> 01:23:34,643 Rather than putting the energy in the battery. 857 01:23:37,800 --> 01:23:40,829 So where it's going? Probably back into the vacuum. 858 01:23:43,570 --> 01:23:48,310 But I mean, the battery does give an indication that it's charged negatively. 859 01:23:50,260 --> 01:23:51,800 And this is what I'm trying to show here. 860 01:23:51,820 --> 01:23:55,390 *But you mentioned something with the pendulum just digressing a little bit. 861 01:23:55,840 --> 01:23:57,010 That's a time charge. 862 01:23:57,160 --> 01:23:59,319 *Now what what exactly do you mean by time charge? 863 01:23:59,380 --> 01:24:03,040 If all the ¿? machines are time charged with batteries. 864 01:24:05,740 --> 01:24:07,239 They work on a time charge. 865 01:24:08,410 --> 01:24:10,229 Impulse time charge, so. 866 01:24:10,270 --> 01:24:13,899 *Okay, so it's not messing with the time stream. 867 01:24:14,370 --> 01:24:17,649 No, so let's do this. 868 01:24:22,010 --> 01:24:25,208 *So now we're hooking, now that we've depleted the battery, we're hooking 869 01:24:26,357 --> 01:24:35,057 *Hopefully both negative and ... Hopefully, we can recover the battery. 870 01:24:42,220 --> 01:24:46,899 okay, so now it's recovered. It's starting to recover. 871 01:24:55,700 --> 01:24:58,779 *so you're charging it with negative energy now or AC? No. 872 01:24:58,780 --> 01:25:05,590 i'm coming along with the normal monopole inverted circuit, to try to put the energy back into the battery. 873 01:25:10,320 --> 01:25:12,708 *And the monopole inverted circuit 874 01:25:12,908 --> 01:25:18,750 is where the battery that you're charging is inverted from the primary battery, right. 875 01:25:19,650 --> 01:25:22,159 *And uses negative energy? You're charging with negative energy? 876 01:25:22,170 --> 01:25:24,929 I'm charging with that with a potential charge. 877 01:25:25,380 --> 01:25:26,399 *Right, With the spike. 878 01:25:27,060 --> 01:25:28,060 There we go. 879 01:25:28,110 --> 01:25:29,110 *Right. 880 01:25:35,390 --> 01:25:36,829 Now, we're not having too much. 881 01:25:37,100 --> 01:25:38,333 *It's doing better 882 01:25:38,533 --> 01:25:45,129 Put the charge back in the battery. But this could get somebody into real trouble. 883 01:25:45,380 --> 01:25:53,880 if they get this by accident, then they're going to come and say you, "I can't charge the battery. What's going on here?" 884 01:25:54,170 --> 01:25:55,170 There it is. 885 01:25:55,280 --> 01:25:58,850 You have to completely deplete the battery of that negative charge. 886 01:26:01,880 --> 01:26:03,410 And you can see it right here going up? 887 01:26:03,800 --> 01:26:04,800 *Yeah. 888 01:26:04,850 --> 01:26:07,430 It's not having too much of a difficult time 889 01:26:20,620 --> 01:26:22,243 It's doing it. 890 01:26:22,700 --> 01:26:26,540 So here's the little trick for everybody out there. 891 01:26:26,900 --> 01:26:34,682 If you get a negatively charged battery and you can't charge the battery, then hit it with a positive, 892 01:26:34,882 --> 01:26:39,259 deplete to 0 basically, and then it will come right back. 893 01:26:41,750 --> 01:26:42,790 +It's like a memory effect too. 894 01:26:43,160 --> 01:26:44,300 Yeah, exactly. 895 01:26:44,300 --> 01:26:46,460 It's a time domain effect in the battery. 896 01:26:49,530 --> 01:26:53,329 That will be okay. Now this battery wil charge. 897 01:26:55,290 --> 01:27:00,720 that's basically what I wanted to show, that if you get stuck in this situation, that's how you get out of this situation. 898 01:27:08,470 --> 01:27:11,320 These holes. This is a battery plate. 899 01:27:11,590 --> 01:27:12,590 *Right. 900 01:27:15,840 --> 01:27:24,859 Somehow when you negatively charged this battery, you can't supply a positive energy to fill in these holes. 901 01:27:31,690 --> 01:27:34,589 it just keeps eating these electrons 902 01:27:35,143 --> 01:27:38,050 You see it? And the only thing that's happening here is heat. 903 01:27:40,160 --> 01:27:52,060 So the best way to get out of this situation and revert the battery back is to get the battery back as to deplete the energy out completely. 904 01:27:55,320 --> 01:27:59,520 And then, of course, this would be the normal solution with the ions. 905 01:28:02,620 --> 01:28:03,620 Okay. 906 01:28:03,700 --> 01:28:08,784 And then once you deplete all the energy out of that negative energy, 907 01:28:08,984 --> 01:28:19,254 after that's gone and the battery's depleted to zero, then you could potentialize the ions to move. 908 01:28:19,457 --> 01:28:26,400 To charge the battery and it won't be absorbed into these holes, 909 01:28:26,401 --> 01:28:27,659 You follow me? *Yeah. 910 01:28:27,660 --> 01:28:28,890 it won't get swallowed up. 911 01:28:29,700 --> 01:28:30,700 In these holes. 912 01:28:32,360 --> 01:28:33,680 I want to add this. 913 01:28:33,690 --> 01:28:34,690 *That's good. 80451