Wonderful build! I love your aesthetic design sense! Most of these types of reproductions are total messes where its almost impossible to follow what the person is doing because it looks like a bird’s nest of wires and stuff. With your design it is clear and easy to follow visually. I came across the Adams design just last night while perusing youtube, and I read a couple of articles about it done by other inventors like yourself, and here is what I learned so far…. 1) Adams had a closed loop design, where the output power was connected to the input so that it didn’t need a power supply to run the generator. And from what I read the key to doing that is both the spacing and timing of the coils, where one shuts off completely while another turns on in succession at the right time so that it keeps the magnet wheel spinning with little to no power. Adams did this by attaching a second rotor disk which had physical brushed switches which turned the drive coils on and off at the right times. All the drive coils (which there are two drive coils in his design) do is swap the magnetic field polarity so that it either pushes or pulls the magnets on short pulses so that it keeps the magnets spinning. This, if done correctly, should require very little power. 2) The second important thing about this device is that it works as an over unity device only when the output/load circuit and coils are pulsed at 1/6th the rate of the drive coils, so that the discharge doesn’t sap more power than the generator needs to keep the magnets spinning on their own. 3) The third thing I learned is that the two drive coils are smaller/thinner/less windings than the output coils. Also, Adams didn’t have access to things like arduinos and mosfet switches, which obviously make things a lot easier. However it also adds a lot of complexity to the design, which may not be needed and could probably be avoided by designing a better physical timing circuit, either with physical switches (like say a laser switch like what you find in a desktop computer mouse button). Hope that helps! Good luck with your future iterations! I have subscribed to your channel and will be following your progress in the future.
Optimal air gap I'm sure I heard was 12mm. Also you're generator coils you should be able to move about to find the sweet spot. I'm extremely interested in this project brother, it's nowhere near completely, I hope you haven't given up on it? Adam says it's capable of 800% efficiency, 110% would be a good start. Subbed.. I would like to see more of this contraption mate and see you succeed. I don't have the funds to be able to make one or I'd be straight on it, i figure if I follow Adams design to a tee it cannot fail. The original plans that are online are being blocked, I cannot download them and if they're being blocked then they are GOLD!!! Good luck boss👍🏼
There's a ton of confusion around the claims made about these devices. In some comments he made later in his life he mentioned 107% for these machines, and perhaps a few 100% for his thermo motor, which was a whole different type of machine. Ideal air gap was definitely 1 to 1.25mm according to Adams, see: waveguide.blog/pulse-motor-generator-design-considerations/#air-gap-1-125-mm
Great work I would say Nick! But as some other pointed out, please experiment more and implement the other tricks... Because while it's a really clean and nice build, results are not as claimed by Adams. I spent the whole night reading all the articles and slept ZERO, immersed in negative energy, negative time, pole reversals, energy from the ether, cold electricity stuff... Someone in this world has to put a final word on this topic :D
Unfortunately, his claims were made based on measurements using calorimetry (measuring heat in and heat out), not using standard multimeters, and I don't have that type of equipment. However, I'm currently developing his more advanced Thermo Motor Generator, and hope that has more obvious anomalous results.
Nice rig man! To improve efficiency, you can consider changing the shape and material of the rotor. (It may need more time to start spining... but once it spins....) On the video the rotor seems to be made as a solid piece of plastic material? Maybe consider a flywheel principle? Energy storage/change of energy. When using a rotor with a flywheel made of ALU with outer ring (heavier maybe add Lead?). Run the setup and experiment with the Pulse Width of the motor. When reducing the pulse with you may have to increase the voltage. Increasing voltage to increase RPM to hopefully reach resonance. The generating coils should probably be the same as the motor coils. You may consider experimenting with different diameters of the flywheelt. We try to reduce the heat produced by the coils... if any? - by reducing the current consumption. Reducing current consumption by storing the energy in the flywheel...?? does it make sense? or im lost.
In one of my other videos I show a rotor that uses a thick brass plate as the flywheel. It just seems to cost a lot more energy to sustain that mass, so not sure if it will ever be more efficient than this rotor. Adams himself used foam as ultra-lightweight filler material for his rotors, so it seems he was of the opinion that non-structural mass should be as low as possible.
I built an Adams motor to his original design without the generator coils but using the star commutator. i found when the commutator closed contact and made the drive circuit there was a small spark and a voltage spike that went back into the drive battery charging it a little. This won't happen with hall effect or optical switching though.
Nice set up. I had an aluminum disc machined (10 inch wide x 3/4 inck thick) I had them perfectly drill and tap 8 holes for my 1 inch wide magnets x 3/4 inch thick. Balance is awesome. The output is way up there. I removed the pick up coils and added more run coils. The spikes are greater then 170 VPP. I made a video of it if it will give we ideas.
@@Waveguide I have several vids out there on my channel showing it working. I try to make them short. I use the typical Bifilar (Bifiler?) coils and 12VDC. Thanks for the response.
@@Waveguide The videos show a practical application that one can actually use in real life instead of solar. Please watch and learn. I'm watching more of your vids to see if I can learn something more so I can share it. OH, I just sub'd, Thought I did the other day.
Robert Adams said that the output coils are turned off most of the time. They are connected to the load when the magnet is located exactly in the center of the coil core. The coils remain connected for only 3 degrees. It is impossible to connect the load to the output coils all the time
Many people say this, but I've read nearly everything Robert Adams ever wrote, and never saw him mention this fact. The only person who I've seen mention this is Patrick J. Kelly, so it's a third person account. Adams himself says in his UK patent that a regular generator can be connected to the shaft, so there seems to be nothing too special about his generator setup. If you have a reference or a quote from Adams saying otherwise, I'd love to hear it! 🙂
Dozens of people have told me this already, but the pulsing of the generator coils comes from Patrick J. Kelly. Robert Adams himself has never said this, and in his UK patent (patents.google.com/patent/GB2282708A/en) he even mentions you can replace the generator coils for a traditional alternator connected to the shaft, so there does not seem to be anything magical going on with his generator coils.
You are great builder and Adsms is whay to go. You can improve results by making flywheel half or even 1m radius. E= B*L*v* sin fi. Your magnetic field shoul cut wire under 90 degrees. Secon put 4 drive coils. They should have narrow field then pickup coils. Use both sides of magnet or prime mover which should be in sandwich of pickup coils. Use back Emf for driving coils or try to eliminate it with bucking coils to prevent dragging. Pickup coils (upper and bottom) should be able to rotate independently. Use paperclip and magnet to see how deep magnetic field reach to not waste cooper. These shoud work better for shure. I think 4 ch scope is must have when dealing with Adams motor/generator. Hope it will help. Cheers.
cool! maybe you could add some smoothing capacitors in parallel with your power supply output, like metal film caps that can deliver fast pulses, and that might allow your DC power supply to give an accurate amps reading? I use 2* WIMA MKP10 250V film caps in parallel with my DC power supply to run my oscillator circuit anyway, to handle the fast current spikes. but you've got a working model, optimization is the bread&butter of engineering, so even a 'poor efficiency' is a great result to work from.
In your article on your website about Robert Adams I read that Robert Adams aparently said that: - It is not the impressed energy applied to the motor that creates the inductive field, as taught in universities and colleges alike; the magnetic flux field “already” exists in its natural state within the stator system; the application of energy into the system simply “expands” the natural latent inherent inductive energy residing therein. - Could a same thing be happening in Michael Faraday's Faraday disc homopolar generator where the magnetic field is provided by a permanent magnet and the generator works regardless of whether the magnet is fixed to the stator or rotates with the disc?
Great work! I just finished reading Adams's original papers and am planning to launch a project of my own, when I stumbled across your video. I look forward to seeing you experiment a lot more. There is absolutely something about Adams's design as to what I have conceived. Thanks for sharing this! Btw. I was hoping that you would have measured the current of your short circuit load ;)
Hi Kalle, thanks for your comment! Silly I didn't do that indeed, so I just repeated the experiment and measured 720mA short circuit current!! See: drive.google.com/file/d/1SoN9k10oKtxZhGrP_Bb42neXaiIQuPVX/view?usp=drivesdk
@@Waveguide Thank you for your response! I sure cannot explain the phenomena but it looks intriguing. Also, the way in which the motor seems to lock into a new rpm as soon as you short out the output. I also am not sure what Adams actually meant with resonance in this case. There is a lot to cover. I am planning on making the basic device first with the mechanical switching part included, to start my experimenting with and stick to it, trying to come up with similar-to-original results by twiddling and tuning the device before I start venturing into electronic switching. That way, I will get some reassurance about the validity of the design before I go doing some wild experiments ;) But realistically, I have a six-month ongoing project of another kind that still needs my attention, and I must get to the finish line with it before I start having some Adams fun. I will venture on to your blog more deeply as soon as I have the time to do so. Your blog post looks like you have some great thought and good analysis going on there!
@@kbeefer2 Once you have your basic device completed, be sure to send me a picture of your setup, as I'm very curious to see it! (Can contact me through my website)
Ok, don't know how far you ve come, or what you know, but the reason, why the short circuit of the secondary coils make it move faster is the slow movement of the magnetic field inside the coils, when you take of electricity. It is like the field stops from changing (not complete). I'd had a design, with long Coils, where the motor speeds up, when i take of energy, because the mgnetic change in the iron was stop and the motor didn't need the same energy, as if you had a complete change in the iron, because of the magnets. So maybe this can help: the secondary coils need a switch and a diode. The switch shortcircuits the coils, until the magnets are on the coils. Right at the moment, the magnets are on the iron, you take of the switch. Other the diode, you need to load the capacitor. You only should take of the energy in one direction, or the coils breaks harder then before, cause of the strong direction change of the magnetic field. At this moment, the coils load the capacitor with back emf and a higher Potential of the input. Try to load the battery and figure out, if you can get more energy, then you put in. Use a battery, to move the motor and for the recharge, so you can find out, if it works.
Thank you for sparking my interest in this motor, i will be starting my design on robert adams motor in the coming weeks as well as getting in contact with you. Maybe my understanding is not the same as yours but i do believe overunity is achieveable using robert adams motor. Either way great work/design. I look forward to more of your videos.
@@cesarranolo9215 using standard meters on input and output, only 20% efficient or so. However, the inventor said you needed to measure using calorimetry.
Nice and neat build. Just consumption of your system is very high. In my device with 30V input it takes up to 0.06A. I use relays coils as a pick up. With its 10K turns It gives me good voltage. It change to curent later in separate system.
Just a guess, when you change the rotor (center part) you need to change the coils and the pulsing timing and other things... and he used a battery not a device to drive it...
@@Waveguide Have you seen this? ua-cam.com/video/J2bPDDWqSvM/v-deo.html How are you timing your electric pulses? The optic timing disc is used because it doesn't put drag on the rotor maybe.... In that video they suggest a 1/2 inch gap... etc, etc... I would try to make it exactly like the plans he left then go from there... also the size of the two different coils or cores is a factor 2 or .5 (1/2) according to that video, yours look too big... but I don't know anything, I'm just browsing the Internet, but I think this might work.
Cool. I noticed your copper coils are not off center like the schematic. Thryre actually centered between the 4 red covered coils. Does this make a difference?
The schematic shows that the 4 red generator coils should be able to rotate a few degrees to find the optimal position. This was in my first version of this motor, but made it shake like crazy each time a magnet passed by, so I had to bolt them down in one place. I didn't notice much of a difference anyways.
@@radiumstudiodotcom you can even know which exact coils I'm using :-) They are Dayton Audio IC1810 coils, with an inductance of 10 mH, wound with 18 AWG wire. See: www.soundimports.eu/en/dayton-audio-ic1810.html
Wait did you try anything like flip the iron bars of the generator around. The lenz drag certainly happens when the magnet wire is close to the magnet, but is that the same for induction through the iron alone, on your machine?
@@Waveguide I know it is hard to stray from the clearly described path, like your on one clearly. But then again it doesn't hurt, it already slows down now. It is certainly possible to get rid of drag, hence the reason for me to build a new generator again. I had this small Mock up generator that did not slow down, and now I'm going for the bigger one. JP
Hi, would you try adjusting the angle between the generator coils and the drive coils - it seems like that in Adam's drawings it is 25 degrees? Cheers!
In the drawing it says to adjust the generator coils between 25° and 45° to find the ideal position. I had a moveable platform for the generator coils to do this, but this made the coils shake violently when the rotor was spinning, so I had to bolt them down in this design. Before that I did experiment with different positioning, but did not find a significant effect.
Potentiometers add resistance which dirty the pulse witdh of the pulse generator. A triggered spark gap tesla hairpin circuit would be a better power supply controlled by flight controller or faster signal generator, and NO transistors or filter coils or resistance elements of any kind can be in the circuit. Since switching abrupt power like this is so hard, you may even need multiple power supplies (either all tesla hairpin circuts with vortex coil quenched triggered spark gaps, or it would be some quenched triggered spark gap version of a half bridge SMPS).
Can you tell me where the energy conference was held ?? How did the motor work out for efficiency Sir ?? I was thinking of using a bar magnet between the laminations of the coil would really help, at least that is what I am thinking.How about winding copper wires in a sphere around the outside of the generator Sir ??? I cannot wait for you to get heat out of this thermal electric generator Sir. This has to be the holy grail of making a heating unit to heat a home. Please make this happen for the good of mankind.
Location was Spokane, USA. Here is the conference website: energyscienceconference.com/ While studying Don Smith's device #9, I feel like the secret material in the Adams Thermo Electric Motor Generator was perhaps Bismuth, but I still have to test this.
nice work =) could you share the reason of your coils beeing at a different angle ? In the original, 25° offset seems his way to go .... looks like you did 45°?
Thanks for your question! In the original design the generator coils can be moved between 25° and 45° to find the ideal position. I first did that, but it made the coils shake a bit (less sturdy) and didn't notice a significant difference in output.
Hello Waveguide, have you considered the idea that your rotor is traveling at or near super sonic velocities at 2000 to 3000 rpm's??? You could eliminate this by either running your motor on top of mount Everest or putting the whole thing in a vacuum chamber and dropping the atmospheric pressure to a point that will allow 5000 or even 6000 rpm's WITHOUT the motor trying to disassemble itself!!! This is the reason all electric motors in todays society are built so sturdy, and make so much NOISE!.
Thanks for youe suggestion, but Robert Adams specifically mentioned a 1.2mm air gap between magnet and coils was important. Do you have a reference to a quote from Adams himself saying the gap needs to be 1/2 inch? Because I've never read that anywhere.
Up till now, I'm not getting very good results COP wise. I somehow feel that the motor might have to run at a specific speed to get the motor coils to resonate.
Amazing! Very curious to hear what he has to say. Turns out the short circuit current was 720mA RMS!! No idea how the motor kept running at that speed with that current draw. I'm not entirely sure what Adams means with "resonance" in his machines. Does he mean pulse frequency is exactly right for the drive coil's L and C to reach resonance? If so, then that is not what happened when I shorted it, because I'd need a lot more capacitance to hit "traditional" LC resonance at that speed.
Is your rotor made of iron? If not this is likely why you're not achieving overunity. If all your magnets are north then the iron rotor will be your south, so, if you've not used an iron rotor your south sine wave will be very weak👍🏼
You need and oscilloscope to look for harmonics and ringing when you shorted it out and it maintains its speed .. there has to be some kind of ringing in that circuit..
This is high tech stuff and very well built. How much voltage would it pump into a 10 K 450 volt electrolytic capacitor. That a good test of it's ability.
wow ..... this is really great and exactly what i been looking for such a long time. I tried to replicate the dashboad but seems there is some .Js files missing in node_modules folder. Can you please share the files in node_modules folder or tell me if i am missing somewhere.
You got close when you shorted. The output coil except you are supposed switch them out part way through the magnet passing so field collapses adds more push to the wheel. And energy output
I heard this before, but it seems the person who wrote about this idea of switching the generator coils is Patrick J Kelly, and Robert Adams never mentions this. Adams' UK patent even states that for the generator a traditional alternator connected to the motor shaft might be preferred. And a traditional generator doesn't switch either of course.
Yes he said it was some one who replicated the Adams motor and achieved 800% efficiency , but I have seen this in a few other. designs to achieve over unity with other devices
One other thing that don't consider it is an attraction motor so drive electro's must have a smaller face area than the magnet's. So you only need a very short pulse to break the magnetic lock that is where you the gain. Magnetic attraction drives the motor small poet pulses. Allow it to carry on and not lock up then you harvest the back Emf
vibration says no need of rubber. i think switching is not perfect between 4 coil. may be i am wrong. because i face the same problem. and i have control with adjustments of coil . well good job.
Thanks for your comment! The four coils aren't switched, they are the generator coils. I just think that the 3D printed rotor is not very well balanced.
If I remember correctly the COP on this motor is something close to 16 so your design, although nice and applaudable, is very basic. Many alterations can be done like the number of magnets, pick-up coils, size etc. But the test is great
There is something in the design that is not entirely correct, but I do not know that after two years you are still interested in this device and you still have it.
Very nice build. Always love you videos. Your confusing rpm during shorting for a little bit, could it be that you hit a resonance point? Have you been able to duplicate it again by trying to match the perameters shown in your video that seemed to cause it?
Hey Chuck, thanks for your kind words! Haven't been testing this motor much lately, as I've been focusing on Tesla Turbine research now, since I sort of hit a dead end with my Adams Motor research as the family members of Robert Adams I tracked down stopped responding unfortunately.
@@Waveguide What have you learned in way of viscous turbines? It's something I've been obsessed with since I was like 18 and I think about them every so often totally underrated
I am not a expert , I want to help you ! Please ignore your drawing. you need to focus on the gap betwin magnets . distance from a magnet to next need to be smaller (distance from a magnet to next magnet need to be smaller than distance of attraction of a magnet to the metal core) . you can keep 4 magnets just wider magnets to reduce the gap or add 4 more magnets making this and change pulse time for electromagnets ,you can do it !
According to its inventor, it's actually a pulsed motor generator, so a combination, but he later agreed indeed to optimize it as a motor and attach a regular generator to the shaft. I'll do this on the new, much larger motor I'm working on at the moment.
Somebody did this properly (you) and that's great. But, instead of getting 800% output, you got 15% output - significantly lower output than input. Why is not slowing down when short circuited ? Because this is low induction generator
Yes I would have to agree with what this guy said. "Yes he said it was some one who replicated the Adams motor and achieved 800% efficiency , but I have seen this in a few other. designs to achieve over unity with other devices". So yes some other guy said all the extra stuff but he got it from a guy who replicated the original so the information was kinda passed down.
It can be run in attraction or repulsion mode. I run it in repulsion mode, but ideally you'd only push enough current in to demagnetize the core, so all torque comes from attraction of magnet to iron core, no pushing required.
I find it strange to get back to this video just to notice that i'm no longer subscribed to you. I don't remember unsubscribing... and I don't see a logical reason why I would unsubscribe.
The best generator design...is a flywheel type...because its create a vacuum magnetic field and flux....but you cant handle it into free energy generator
Can you put the math in. Watts in and watts out. Power supply VI=_?_ and Output VI_?_ . I can calculate it from your power supply from the video. Can you put the multimeter in series with your fan?
Hi, the power supply doesn't show an accurate figure, as it is pulsed DC and not a continuous current. You'd need an advanced oscilloscope to calculate the true current usage. I don't have the motor setup anymore to run the tests you propose, but you can be quite sure that the output power isn't super impressive.
@@Waveguide I’m trying to make a pulse motor myself. It’ll be more of a generator without any external power supply. It has one drive coil with four exterior coils. Each exterior coil pulses power into a capacitor. When the drive magnet comes around it severs the connection to the generator coils and hits a reed switch from the capacitor to the drive coil. I’m still working on the generator coils to get the right amount of windings to correctly Pulse the energy into the capacitor. And I’m trying to work out the electronics for the back EMF from the generator coils.
I've seen machines with my own eyes that seemed to be OU, but I myself have not achieved it (yet :-p). I'm working on a model with 20x the magnet surface area + many other improvements, so hopefully that one will be able to definitively answer this question :-)
There are many scams indeed. I try to see if there is any merit to the claims of the inventor, and am honest about the fact that I haven't been able to verify his claims yet. So far it's just been a very interesting project I learned a lot from, but no overunity has been achieved.
@Waveguide Put on it a contactless dynamo ( e.i. Reelight) to get energy without magnetic friction. ua-cam.com/video/J-vYTGVhjRY/v-deo.htmlsi=MXCRiFHw-B3az8q2
Hi Ivan, as I said to another commenter, this might help, but Adams' own coils weren't bifilar, so I'm unsure if it is necessary for a successful replication.
@@Waveguide 4 magnets are directed equally to the north. The windings are on one side and are connected in series. This implies avoiding part of the generator dragging effect. It will be much simpler if these coils are biliary, so I said so.
@@Waveguide I was thinking the same, all methods to remove the drag,or/and boost the drive coils should be explored. some guys did get a Bedini circuit to self power.
If you generate on the approach of a magnet field your coils counter it and slow it down if your generate on the withdraw away the pickup coils counter is and slow it down. if you short the output which means you are taking no power out then the energy can stay in and rpms will accelerate due to reduced drag. Drag is directly proportional to output energy. Adams motor was never proven to work. You cannot quickly steal energy from a spinning wheel before it notices that you stole it. no matter how quick your pulses get or any trickery in delays and such will be felt exactly by the flywheel. You also cannot trick a wheel into spinning faster with a quick pulse vs a long one. the spinning speed will be directly proportional to input power. It like pushing someone on a swing there is nothing better than a well timed pulse no trickery will do it for free. The air gap will just reduce connection to the wheel nothing to gain by increasing distance. In fact it has been proven closer is more efficient. Back emf is misunderstood its simply the energy you put in returning just as momentum return if you push a swing there is no gains in energy from back emf. If the energy is used in a coil to do work the back emf is reduced. Magnetic field is momentum, and electric field is pressure. you have to steal from the tempic field which is heat and the result is the unit will run cold.
Thanks for your detailed comment! The only thing about BEMF is that as Newman suggested, and which becomes obvious if you look at the Ampere-Turn theory, that if you use the same amount of current, but put it into a much larger coil, you're "paying" the same, but the power in the BEMF or flyback will be much much greater. And I don't think shorting the output means the energy can stay in. It provides a path for a lot of current to flow, and so it will be seen as a heavy load and so slow the rotor down.
It is no wonder this device doesn't work because you have not followed Robert Adams simple instructions. This is not a valid replication only a conventional pulse motor driving a standard induction generator. It will never work as you have built it, not in a million years...
Thanks for your reply. Please let me know which instructions from Robert Adams I have not followed, because I tried to stay true to his design, apart from the switching circuit of course. People here constantly give me tips like: "use bifilar coils" or "switch the generator coils", and I always tell them that I won't do that, because I try to only do what Adams did. So I would very much like to know from you what instructions of him I am not following.
Wonderful build! I love your aesthetic design sense! Most of these types of reproductions are total messes where its almost impossible to follow what the person is doing because it looks like a bird’s nest of wires and stuff. With your design it is clear and easy to follow visually. I came across the Adams design just last night while perusing youtube, and I read a couple of articles about it done by other inventors like yourself, and here is what I learned so far…. 1) Adams had a closed loop design, where the output power was connected to the input so that it didn’t need a power supply to run the generator. And from what I read the key to doing that is both the spacing and timing of the coils, where one shuts off completely while another turns on in succession at the right time so that it keeps the magnet wheel spinning with little to no power. Adams did this by attaching a second rotor disk which had physical brushed switches which turned the drive coils on and off at the right times. All the drive coils (which there are two drive coils in his design) do is swap the magnetic field polarity so that it either pushes or pulls the magnets on short pulses so that it keeps the magnets spinning. This, if done correctly, should require very little power. 2) The second important thing about this device is that it works as an over unity device only when the output/load circuit and coils are pulsed at 1/6th the rate of the drive coils, so that the discharge doesn’t sap more power than the generator needs to keep the magnets spinning on their own. 3) The third thing I learned is that the two drive coils are smaller/thinner/less windings than the output coils. Also, Adams didn’t have access to things like arduinos and mosfet switches, which obviously make things a lot easier. However it also adds a lot of complexity to the design, which may not be needed and could probably be avoided by designing a better physical timing circuit, either with physical switches (like say a laser switch like what you find in a desktop computer mouse button). Hope that helps! Good luck with your future iterations! I have subscribed to your channel and will be following your progress in the future.
@@oleggovorun5553 not if you give it a starting move. am i right?
Optimal air gap I'm sure I heard was 12mm. Also you're generator coils you should be able to move about to find the sweet spot.
I'm extremely interested in this project brother, it's nowhere near completely, I hope you haven't given up on it?
Adam says it's capable of 800% efficiency, 110% would be a good start.
Subbed.. I would like to see more of this contraption mate and see you succeed. I don't have the funds to be able to make one or I'd be straight on it, i figure if I follow Adams design to a tee it cannot fail. The original plans that are online are being blocked, I cannot download them and if they're being blocked then they are GOLD!!!
Good luck boss👍🏼
There's a ton of confusion around the claims made about these devices. In some comments he made later in his life he mentioned 107% for these machines, and perhaps a few 100% for his thermo motor, which was a whole different type of machine.
Ideal air gap was definitely 1 to 1.25mm according to Adams, see: waveguide.blog/pulse-motor-generator-design-considerations/#air-gap-1-125-mm
If you can get 101% anything is then possible
Great work I would say Nick! But as some other pointed out, please experiment more and implement the other tricks... Because while it's a really clean and nice build, results are not as claimed by Adams. I spent the whole night reading all the articles and slept ZERO, immersed in negative energy, negative time, pole reversals, energy from the ether, cold electricity stuff... Someone in this world has to put a final word on this topic :D
Unfortunately, his claims were made based on measurements using calorimetry (measuring heat in and heat out), not using standard multimeters, and I don't have that type of equipment.
However, I'm currently developing his more advanced Thermo Motor Generator, and hope that has more obvious anomalous results.
42 degrees at 44 degress .output .the resistance of the wire 3500 metre of 0.18 .
I like this concept with the axial motor. The Adams motor solves other problems. The heat remains outside the motor.
Thanks so much for posting!! Wow nice set up with the laptop readings.
Thanks! You can find the source code through the GitHub link in the description ;-)
Nice rig man! To improve efficiency, you can consider changing the shape and material of the rotor. (It may need more time to start spining... but once it spins....) On the video the rotor seems to be made as a solid piece of plastic material? Maybe consider a flywheel principle? Energy storage/change of energy. When using a rotor with a flywheel made of ALU with outer ring (heavier maybe add Lead?). Run the setup and experiment with the Pulse Width of the motor. When reducing the pulse with you may have to increase the voltage. Increasing voltage to increase RPM to hopefully reach resonance. The generating coils should probably be the same as the motor coils. You may consider experimenting with different diameters of the flywheelt. We try to reduce the heat produced by the coils... if any? - by reducing the current consumption. Reducing current consumption by storing the energy in the flywheel...?? does it make sense? or im lost.
In one of my other videos I show a rotor that uses a thick brass plate as the flywheel. It just seems to cost a lot more energy to sustain that mass, so not sure if it will ever be more efficient than this rotor. Adams himself used foam as ultra-lightweight filler material for his rotors, so it seems he was of the opinion that non-structural mass should be as low as possible.
@@Waveguide Time to invest in aerogels
I built an Adams motor to his original design without the generator coils but using the star commutator. i found when the commutator closed contact and made the drive circuit there was a small spark and a voltage spike that went back into the drive battery charging it a little. This won't happen with hall effect or optical switching though.
Nice set up. I had an aluminum disc machined (10 inch wide x 3/4 inck thick) I had them perfectly drill and tap 8 holes for my 1 inch wide magnets x 3/4 inch thick.
Balance is awesome.
The output is way up there. I removed the pick up coils and added more run coils. The spikes are greater then 170 VPP.
I made a video of it if it will give we ideas.
That sounds very impressive! Would love to see a video of your system in action.
What are you using to pulse the coils?
@@Waveguide I have several vids out there on my channel showing it working. I try to make them short. I use the typical Bifilar (Bifiler?) coils and 12VDC. Thanks for the response.
@@Waveguide The videos show a practical application that one can actually use in real life instead of solar. Please watch and learn. I'm watching more of your vids to see if I can learn something more so I can share it. OH, I just sub'd, Thought I did the other day.
This is first I've heard of this can you help me with any plans or anything like that I was looking for a bindee motor
Robert Adams said that the output coils are turned off most of the time. They are connected to the load when the magnet is located exactly in the center of the coil core. The coils remain connected for only 3 degrees. It is impossible to connect the load to the output coils all the time
Many people say this, but I've read nearly everything Robert Adams ever wrote, and never saw him mention this fact. The only person who I've seen mention this is Patrick J. Kelly, so it's a third person account. Adams himself says in his UK patent that a regular generator can be connected to the shaft, so there seems to be nothing too special about his generator setup. If you have a reference or a quote from Adams saying otherwise, I'd love to hear it! 🙂
I really need to watch more. You are showing me things I do not know.
you need to pulse the output and also use a bridge rectifier to catch the back emf!
Dozens of people have told me this already, but the pulsing of the generator coils comes from Patrick J. Kelly. Robert Adams himself has never said this, and in his UK patent (patents.google.com/patent/GB2282708A/en) he even mentions you can replace the generator coils for a traditional alternator connected to the shaft, so there does not seem to be anything magical going on with his generator coils.
You are great builder and Adsms is whay to go. You can improve results by making flywheel half or even 1m radius. E= B*L*v* sin fi. Your magnetic field shoul cut wire under 90 degrees. Secon put 4 drive coils. They should have narrow field then pickup coils. Use both sides of magnet or prime mover which should be in sandwich of pickup coils. Use back Emf for driving coils or try to eliminate it with bucking coils to prevent dragging. Pickup coils (upper and bottom) should be able to rotate independently. Use paperclip and magnet to see how deep magnetic field reach to not waste cooper. These shoud work better for shure. I think 4 ch scope is must have when dealing with Adams motor/generator. Hope it will help. Cheers.
Thanks for the tips!
cool! maybe you could add some smoothing capacitors in parallel with your power supply output, like metal film caps that can deliver fast pulses, and that might allow your DC power supply to give an accurate amps reading? I use 2* WIMA MKP10 250V film caps in parallel with my DC power supply to run my oscillator circuit anyway, to handle the fast current spikes. but you've got a working model, optimization is the bread&butter of engineering, so even a 'poor efficiency' is a great result to work from.
In your article on your website about Robert Adams I read that Robert Adams aparently said that:
- It is not the impressed energy applied to the motor that creates the inductive field, as taught in universities and colleges alike; the magnetic flux field “already” exists in its natural state within the stator system; the application of energy into the system simply “expands” the natural latent inherent inductive energy residing therein. -
Could a same thing be happening in Michael Faraday's Faraday disc homopolar generator where the magnetic field is provided by a permanent magnet and the generator works regardless of whether the magnet is fixed to the stator or rotates with the disc?
I haven't experimented much with the homopolar generator myself, so I can't tell you if the effect is the same.
Great work! I just finished reading Adams's original papers and am planning to launch a project of my own, when I stumbled across your video. I look forward to seeing you experiment a lot more. There is absolutely something about Adams's design as to what I have conceived. Thanks for sharing this! Btw. I was hoping that you would have measured the current of your short circuit load ;)
Hi Kalle, thanks for your comment! Silly I didn't do that indeed, so I just repeated the experiment and measured 720mA short circuit current!! See: drive.google.com/file/d/1SoN9k10oKtxZhGrP_Bb42neXaiIQuPVX/view?usp=drivesdk
@@Waveguide Thank you for your response! I sure cannot explain the phenomena but it looks intriguing. Also, the way in which the motor seems to lock into a new rpm as soon as you short out the output. I also am not sure what Adams actually meant with resonance in this case. There is a lot to cover. I am planning on making the basic device first with the mechanical switching part included, to start my experimenting with and stick to it, trying to come up with similar-to-original results by twiddling and tuning the device before I start venturing into electronic switching. That way, I will get some reassurance about the validity of the design before I go doing some wild experiments ;) But realistically, I have a six-month ongoing project of another kind that still needs my attention, and I must get to the finish line with it before I start having some Adams fun. I will venture on to your blog more deeply as soon as I have the time to do so. Your blog post looks like you have some great thought and good analysis going on there!
@@kbeefer2 Once you have your basic device completed, be sure to send me a picture of your setup, as I'm very curious to see it! (Can contact me through my website)
Can i get a copy???
@Artur house soft iron is what Adams used and I tried to stay true to that.
Ok, don't know how far you ve come, or what you know, but the reason, why the short circuit of the secondary coils make it move faster is the slow movement of the magnetic field inside the coils, when you take of electricity. It is like the field stops from changing (not complete).
I'd had a design, with long Coils, where the motor speeds up, when i take of energy, because the mgnetic change in the iron was stop and the motor didn't need the same energy, as if you had a complete change in the iron, because of the magnets.
So maybe this can help: the secondary coils need a switch and a diode. The switch shortcircuits the coils, until the magnets are on the coils. Right at the moment, the magnets are on the iron, you take of the switch. Other the diode, you need to load the capacitor. You only should take of the energy in one direction, or the coils breaks harder then before, cause of the strong direction change of the magnetic field. At this moment, the coils load the capacitor with back emf and a higher Potential of the input. Try to load the battery and figure out, if you can get more energy, then you put in. Use a battery, to move the motor and for the recharge, so you can find out, if it works.
What is the material you make the rotor from ? i like how you conduct the experiment , thank you for sharing it!
@@primeradianttechnologies3085 It's carbon fibre reinforced PLA
Thank you for sparking my interest in this motor, i will be starting my design on robert adams motor in the coming weeks as well as getting in contact with you. Maybe my understanding is not the same as yours but i do believe overunity is achieveable using robert adams motor. Either way great work/design. I look forward to more of your videos.
Great to hear that! Excited to see what your design will look like.
Hi., Do you achieve overunity? In your experiments in adams motor gen... Been replicating it but can not achieve speeding effect while on load
No OU effects so far.
@@Waveguide thanks ..maybe ill stop here for this,.. and try to replixate solidstate devices like MEG
@@Waveguide whats the highest efficiency you've done so far?
@@cesarranolo9215 using standard meters on input and output, only 20% efficient or so. However, the inventor said you needed to measure using calorimetry.
Please tel me how you line up the led aray - +- after that please
@@user-bubstech sorry mate, can't remember, too long ago
Nice and neat build. Just consumption of your system is very high. In my device with 30V input it takes up to 0.06A. I use relays coils as a pick up. With its 10K turns It gives me good voltage. It change to curent later in separate system.
Just a guess, when you change the rotor (center part) you need to change the coils and the pulsing timing and other things... and he used a battery not a device to drive it...
Coils were specced to this rotor, and I have run it from batteries as well.
@@Waveguide Have you seen this?
ua-cam.com/video/J2bPDDWqSvM/v-deo.html
How are you timing your electric pulses?
The optic timing disc is used because it doesn't put drag on the rotor maybe....
In that video they suggest a 1/2 inch gap... etc, etc... I would try to make it exactly like the plans he left then go from there... also the size of the two different coils or cores is a factor 2 or .5 (1/2) according to that video, yours look too big... but I don't know anything, I'm just browsing the Internet, but I think this might work.
Nagyon szép bemutató.Persze nem látható a 800%-os többletenergia.
nicely done. I dig your build quality
Cool. I noticed your copper coils are not off center like the schematic. Thryre actually centered between the 4 red covered coils. Does this make a difference?
The schematic shows that the 4 red generator coils should be able to rotate a few degrees to find the optimal position. This was in my first version of this motor, but made it shake like crazy each time a magnet passed by, so I had to bolt them down in one place. I didn't notice much of a difference anyways.
Wow cool good work ! Are you using speaker laminate crossover coils for your Adams Motor?
Thanks! For the generator coils, yes. The drive coils are hand wound using 0.5mm wire on a solid soft iron core, as per Adams' recommendation.
@@Waveguide Is it possible to know the gauge wire and the how mh of the generator coil?
@@radiumstudiodotcom you can even know which exact coils I'm using :-) They are Dayton Audio IC1810 coils, with an inductance of 10 mH, wound with 18 AWG wire. See: www.soundimports.eu/en/dayton-audio-ic1810.html
Wait did you try anything like flip the iron bars of the generator around. The lenz drag certainly happens when the magnet wire is close to the magnet, but is that the same for induction through the iron alone, on your machine?
I did not try that yet no
@@Waveguide I know it is hard to stray from the clearly described path, like your on one clearly. But then again it doesn't hurt, it already slows down now. It is certainly possible to get rid of drag, hence the reason for me to build a new generator again. I had this small Mock up generator that did not slow down, and now I'm going for the bigger one. JP
Can you test it again with no iron core in 4 generator coils, sir? I would appreciate that so much. Thank you.
Ändere Kondensatoren ?👍
Hi, would you try adjusting the angle between the generator coils and the drive coils - it seems like that in Adam's drawings it is 25 degrees? Cheers!
In the drawing it says to adjust the generator coils between 25° and 45° to find the ideal position.
I had a moveable platform for the generator coils to do this, but this made the coils shake violently when the rotor was spinning, so I had to bolt them down in this design.
Before that I did experiment with different positioning, but did not find a significant effect.
Potentiometers add resistance which dirty the pulse witdh of the pulse generator. A triggered spark gap tesla hairpin circuit would be a better power supply controlled by flight controller or faster signal generator, and NO transistors or filter coils or resistance elements of any kind can be in the circuit. Since switching abrupt power like this is so hard, you may even need multiple power supplies (either all tesla hairpin circuts with vortex coil quenched triggered spark gaps, or it would be some quenched triggered spark gap version of a half bridge SMPS).
Hi.
Is all the books still available, and if, how can ir may I get hold of it.
Please confirm and thanks so much.
Yes they are availabke from the link in the video description.
@@Waveguide, thanks so much.
Did look but missed it.
Can you tell me where the energy conference was held ?? How did the motor work out for efficiency Sir ?? I was thinking of using a bar magnet between the laminations of the coil would really help, at least that is what I am thinking.How about winding copper wires in a sphere around the outside of the generator Sir ???
I cannot wait for you to get heat out of this thermal electric generator Sir. This has to be the holy grail of making a heating unit to heat a home. Please make this happen for the good of mankind.
Location was Spokane, USA. Here is the conference website: energyscienceconference.com/
While studying Don Smith's device #9, I feel like the secret material in the Adams Thermo Electric Motor Generator was perhaps Bismuth, but I still have to test this.
@@Waveguide Look forward to find out what you discover Waveguide. I forsee great things from you Sir. Good luck too.
Are you pulsing the generator output to counteract the Lenz effect ?
I am not, because the inventor never mentioned he had to do this, but it might be worth a try.
Great work my friend try to use the spike on the capacitor........
Yes, that is something I need to do still. Right now I just have a flyback diode, but don't capture the spike in a capacitor yet.
Use the nagative cap as + of source and the spike after diode to + off cap
nice work =) could you share the reason of your coils beeing at a different angle ? In the original, 25° offset seems his way to go .... looks like you did 45°?
Thanks for your question! In the original design the generator coils can be moved between 25° and 45° to find the ideal position. I first did that, but it made the coils shake a bit (less sturdy) and didn't notice a significant difference in output.
@@Waveguide very interesting , so no need to test that out ^^
thanks for sharing ;)
Hello Waveguide,
have you considered the idea that your rotor is traveling at or near super sonic velocities at 2000 to 3000 rpm's??? You could eliminate this by either running your motor on top of mount Everest or putting the whole thing in a vacuum chamber and dropping the atmospheric pressure to a point that will allow 5000 or even 6000 rpm's WITHOUT the motor trying to disassemble itself!!! This is the reason all electric motors in todays society are built so sturdy, and make so much NOISE!.
Yeah the peripheral speed is pretty scary indeed! And my rotors have disassembled several times because of that.
Hi Love your persistent experimenting!!. Whats the program you use on the laptop to shows those parameters?
Hi, that's my own software which is available on Github here: github.com/nickkraakman/arduino-pulsed-motor-driver
How many other folks pointed out your drive coils are too close to get decent results, adams suggested 1/2 inch gap between the drive coil and rotor
Thanks for youe suggestion, but Robert Adams specifically mentioned a 1.2mm air gap between magnet and coils was important. Do you have a reference to a quote from Adams himself saying the gap needs to be 1/2 inch? Because I've never read that anywhere.
Do you have the micro controller code posted to say github, I didn't see it in your blog?
For sure, I always share everything in the description under my videos. Here is the link: github.com/nickkraakman/arduino-pulsed-motor-driver
@@Waveguide thank ya so much it's exactly what I was needing to move forward. I'll share any interesting findings
Please, try to use ED.Lindskalnin coils, so its have no lenz effect.
i wish i cam do that. impressive work.
build is looking good. have you balanced the rotor. i have never seen the thermo accoustic device before
The rotor is 3D printed and not balanced very well. Haven't found a great way to do the balancing yet.
@@Waveguide For balancing, I suggest this video to get a glimpse. ua-cam.com/video/Sq3H2b1Uyis/v-deo.html
What is the COP you get ?
Up till now, I'm not getting very good results COP wise. I somehow feel that the motor might have to run at a specific speed to get the motor coils to resonate.
looks like you hit a resonant feedback when you shorted it out. I've emailed the fellow who ran the conference in an attempt to get more information.
Amazing! Very curious to hear what he has to say.
Turns out the short circuit current was 720mA RMS!! No idea how the motor kept running at that speed with that current draw.
I'm not entirely sure what Adams means with "resonance" in his machines.
Does he mean pulse frequency is exactly right for the drive coil's L and C to reach resonance?
If so, then that is not what happened when I shorted it, because I'd need a lot more capacitance to hit "traditional" LC resonance at that speed.
Yes it looks like it hit resonance twice, a great replication!
@@quantumenergysolutions9128 resonance happens at different hertz. Never trust your meters.
Der sieht gut aus
Is your rotor made of iron?
If not this is likely why you're not achieving overunity.
If all your magnets are north then the iron rotor will be your south, so, if you've not used an iron rotor your south sine wave will be very weak👍🏼
You need and oscilloscope to look for harmonics and ringing when you shorted it out and it maintains its speed .. there has to be some kind of ringing in that circuit..
This is high tech stuff and very well built. How much voltage would it pump into a 10 K 450 volt electrolytic capacitor. That a good test of it's ability.
Hi, haven't tested that yet, and do you mean from the flyback or from the generator coils?
@@Waveguide The generator coils.
Pl show me Input power and output power with amps meter.
wow ..... this is really great and exactly what i been looking for such a long time. I tried to replicate the dashboad but seems there is some .Js files missing in node_modules folder. Can you please share the files in node_modules folder or tell me if i am missing somewhere.
You have to run 'npm install' in a terminal window to install all the required packages
@@Waveguide Thanks :-)
You got close when you shorted. The output coil except you are supposed switch them out part way through the magnet passing so field collapses adds more push to the wheel. And energy output
I heard this before, but it seems the person who wrote about this idea of switching the generator coils is Patrick J Kelly, and Robert Adams never mentions this. Adams' UK patent even states that for the generator a traditional alternator connected to the motor shaft might be preferred. And a traditional generator doesn't switch either of course.
Yes he said it was some one who replicated the Adams motor and achieved 800% efficiency , but I have seen this in a few other. designs to achieve over unity with other devices
One other thing that don't consider it is an attraction motor so drive electro's must have a smaller face area than the magnet's. So you only need a very short pulse to break the magnetic lock that is where you the gain. Magnetic attraction drives the motor small poet pulses. Allow it to carry on and not lock up then you harvest the back Emf
what kind of iron do you use sir?
Soft iron
Can I send you a new design of motors and a compressor and pump that I came up with
vibration says no need of rubber. i think switching is not perfect between 4 coil. may be i am wrong. because i face the same problem. and i have control with adjustments of coil . well good job.
Thanks for your comment! The four coils aren't switched, they are the generator coils. I just think that the 3D printed rotor is not very well balanced.
do you have a 30kw generator for sale?
I do not :-)
So in theory if you have 12 coils use three coils to power it and selectively be able to turn off and on each coil
U need to spin 3,600 rpm for 50/60hz w load or put a cap 20 nf nd the voltage to match
If I remember correctly the COP on this motor is something close to 16 so your design, although nice and applaudable, is very basic. Many alterations can be done like the number of magnets, pick-up coils, size etc. But the test is great
There is something in the design that is not entirely correct, but I do not know that after two years you are still interested in this device and you still have it.
I still have the device, but am no longer interested in it indeed 🙂
if you connect its to the generator or motors its will produce a lot of powers, thanks
Very nice build. Always love you videos. Your confusing rpm during shorting for a little bit, could it be that you hit a resonance point? Have you been able to duplicate it again by trying to match the perameters shown in your video that seemed to cause it?
Hey Chuck, thanks for your kind words! Haven't been testing this motor much lately, as I've been focusing on Tesla Turbine research now, since I sort of hit a dead end with my Adams Motor research as the family members of Robert Adams I tracked down stopped responding unfortunately.
@@Waveguide What have you learned in way of viscous turbines? It's something I've been obsessed with since I was like 18 and I think about them every so often totally underrated
From this principle is easy to acheive more than 50% recuperation
excelent! thanks!
Glad you liked it!
I thought his electric magnet motor was ran off of battery and putting a pause in to the battery keeping it charged even under load
That was the promise indeed. This was just a test run. I never got it to keep the battery charged under load though.
I am not a expert , I want to help you !
Please ignore your drawing.
you need to focus on the gap betwin magnets .
distance from a magnet to next need to be smaller (distance from a magnet to next magnet need to be smaller than distance of attraction of a magnet to the metal core) .
you can keep 4 magnets just wider magnets to reduce the gap or add 4 more magnets
making this and change pulse time for electromagnets ,you can do it !
You need to set up time switch 1/10 - its first , and connect standart generator on this motor, because its a pulsed MOTOR
According to its inventor, it's actually a pulsed motor generator, so a combination, but he later agreed indeed to optimize it as a motor and attach a regular generator to the shaft. I'll do this on the new, much larger motor I'm working on at the moment.
Have you tried the bedini ssg motor curcuit?
Somebody did this properly (you) and that's great.
But, instead of getting 800% output, you got 15% output - significantly lower output than input.
Why is not slowing down when short circuited ? Because this is low induction generator
good job great machine
Great channel! I am an inventor, I want to help you, how can I get it touch with you? Thanks
Thanks! You can press the contact button on my website waveguide.blog
@@Waveguide cheers!
@@Waveguide Ok sent!
Yes I would have to agree with what this guy said. "Yes he said it was some one who replicated the Adams motor and achieved 800% efficiency , but I have seen this in a few other. designs to achieve over unity with other devices". So yes some other guy said all the extra stuff but he got it from a guy who replicated the original so the information was kinda passed down.
1. why don't you have capacitors on those coils.
2. You want a 3 phase pulse system
3. How hot are those coils gettin.
1. Why would I? For resonance? Wasn't trying to achieve resonance.
2. Why do I want a 3 phase pulse system?
3. Coils stay cool.
Are you pushing or pulling the magnets. Remember its an attraction motor.
It can be run in attraction or repulsion mode. I run it in repulsion mode, but ideally you'd only push enough current in to demagnetize the core, so all torque comes from attraction of magnet to iron core, no pushing required.
I find it strange to get back to this video just to notice that i'm no longer subscribed to you. I don't remember unsubscribing... and I don't see a logical reason why I would unsubscribe.
UA-cam algorithm...
Super 👍⚡!
The best generator design...is a flywheel type...because its create a vacuum magnetic field and flux....but you cant handle it into free energy generator
John bedinis Begeisterung der Wellen
Can you put the math in. Watts in and watts out. Power supply VI=_?_ and Output VI_?_ . I can calculate it from your power supply from the video. Can you put the multimeter in series with your fan?
Hi, the power supply doesn't show an accurate figure, as it is pulsed DC and not a continuous current. You'd need an advanced oscilloscope to calculate the true current usage.
I don't have the motor setup anymore to run the tests you propose, but you can be quite sure that the output power isn't super impressive.
@@Waveguide I’m trying to make a pulse motor myself. It’ll be more of a generator without any external power supply. It has one drive coil with four exterior coils. Each exterior coil pulses power into a capacitor. When the drive magnet comes around it severs the connection to the generator coils and hits a reed switch from the capacitor to the drive coil. I’m still working on the generator coils to get the right amount of windings to correctly Pulse the energy into the capacitor. And I’m trying to work out the electronics for the back EMF from the generator coils.
Ever achieved OU or is it a myth?
I've seen machines with my own eyes that seemed to be OU, but I myself have not achieved it (yet :-p). I'm working on a model with 20x the magnet surface area + many other improvements, so hopefully that one will be able to definitively answer this question :-)
@@Waveguide rotary transformer v3, RTv3 by brad power may give you new ideas
Das ist klein Generator genau so
Nice.
focus on the flyback
Das geht gut
is it a self running motor or another scam?
There are many scams indeed. I try to see if there is any merit to the claims of the inventor, and am honest about the fact that I haven't been able to verify his claims yet. So far it's just been a very interesting project I learned a lot from, but no overunity has been achieved.
@Waveguide Put on it a contactless dynamo ( e.i. Reelight) to get energy without magnetic friction. ua-cam.com/video/J-vYTGVhjRY/v-deo.htmlsi=MXCRiFHw-B3az8q2
coils should be bifilar
Hi Ivan, as I said to another commenter, this might help, but Adams' own coils weren't bifilar, so I'm unsure if it is necessary for a successful replication.
@@Waveguide 4 magnets are directed equally to the north. The windings are on one side and are connected in series. This implies avoiding part of the generator dragging effect. It will be much simpler if these coils are biliary, so I said so.
@@teslafreedomenergy and you mean parallel wound, series connected bifilar coils? Like in Tesla's patent?
All your coils should be bifilar.
Might help, but Adams' own coils weren't bifilar, so I'm unsure if it is necessary for a successful replication.
@@Waveguide fair enough. I understand you are replicating a specific patient. Nice looking build.
@@Waveguide I was thinking the same, all methods to remove the drag,or/and boost the drive coils should be explored. some guys did get a Bedini circuit to self power.
Next time use a shunt to measure the current then you won't fry your multimeter by plugging/setting it wrong 😂
changing the world?
If you generate on the approach of a magnet field your coils counter it and slow it down if your generate on the withdraw away the pickup coils counter is and slow it down. if you short the output which means you are taking no power out then the energy can stay in and rpms will accelerate due to reduced drag. Drag is directly proportional to output energy. Adams motor was never proven to work. You cannot quickly steal energy from a spinning wheel before it notices that you stole it. no matter how quick your pulses get or any trickery in delays and such will be felt exactly by the flywheel. You also cannot trick a wheel into spinning faster with a quick pulse vs a long one. the spinning speed will be directly proportional to input power. It like pushing someone on a swing there is nothing better than a well timed pulse no trickery will do it for free. The air gap will just reduce connection to the wheel nothing to gain by increasing distance. In fact it has been proven closer is more efficient. Back emf is misunderstood its simply the energy you put in returning just as momentum return if you push a swing there is no gains in energy from back emf. If the energy is used in a coil to do work the back emf is reduced. Magnetic field is momentum, and electric field is pressure. you have to steal from the tempic field which is heat and the result is the unit will run cold.
Thanks for your detailed comment!
The only thing about BEMF is that as Newman suggested, and which becomes obvious if you look at the Ampere-Turn theory, that if you use the same amount of current, but put it into a much larger coil, you're "paying" the same, but the power in the BEMF or flyback will be much much greater.
And I don't think shorting the output means the energy can stay in. It provides a path for a lot of current to flow, and so it will be seen as a heavy load and so slow the rotor down.
@@Waveguide aLoadNeedsToHaveTheResistanceEqualToInternalResistanceToDrawMaximumPower.
BemfItsWasted,NotCollectedBecauseNoCapacitorConnected.
@@ovidius2000 at least someone understands "jacobs law" and or "therevins maximum power equation".
It is no wonder this device doesn't work because you have not followed Robert Adams simple instructions. This is not a valid replication only a conventional pulse motor driving a standard induction generator. It will never work as you have built it, not in a million years...
Thanks for your reply. Please let me know which instructions from Robert Adams I have not followed, because I tried to stay true to his design, apart from the switching circuit of course.
People here constantly give me tips like: "use bifilar coils" or "switch the generator coils", and I always tell them that I won't do that, because I try to only do what Adams did.
So I would very much like to know from you what instructions of him I am not following.
Logig
You have no stator.
I actually have 2 stators (orange wire), and 4 generator coils (red wire)
Your magnets are too strong, Change for less magnetic force, little ones, only to shake a little bit One needle.
no one cares sad truth
It's not worth! It should have an Overunity results.
By the way you had your current meter on AC
It might look like it on the dial, but check to the left of the numbers on the screen, and you see it says "DC".
@@Waveguide I'm too blind to read the damn numbers on the doll that's what I was looking at lol
Hello, my brother. Yes, this is a mythical truth. Do the people believe in this great achievement ?!?!?! smiley