I think your problem is that the output impedance of your computer and your MP3 player is quite high, probably for earphones it's at about 1kohm, so your current is a few mA into the secondary of your transformer, it becomes even less on the output, so that's not going to be much good for charging stuff.
Regarding using the signal through a transformer to charge batteries, I don't think you have enough current to realign the molecules in the cell, so you can get some charge (equivalent voltage) but the dipole depletes rapidly. Are they rechargeable batteries? Some alkaline batteries will recharge but the results vary.
so you are saying that with input waves of the same power you get varying output DC voltage depending on the frequency of the input signal. And that the best results ie. most output voltage, are achieved if the input signal is "in tune" with your transformer. Isn't this basically how a Tesla Tuned Circuit works?
Matt, Mike here. Yea, exactly, but I am wondering about amp/joules in and out when you do that. Tesla's antenna radiant energy will power an oscillator into a coil, but I dont know about current, units of work, which would be the height of the waves. Right? Radiant ether is 60hz, but how strong are the kicks? We could short 30/60 cycles into a capacitor to amplify the kicks. HELP???
Hi Mike, I think Tesla stepped the whole thing with a capacitor, spark gap and relay switch. He said you could receive 50volts per foot from the ether! I reckon if you get enough voltage then you are bound (by the laws of physics lol) to get a few amps ;) with the video above the input signal is acting like an ac signal, the higher the freq the more power I guess...? I think tuning is important.
Matt, there's a video on Tesla coil regarding resonance. I think he's referring to the two coils in the final transformer bouncing and building upon each other, amplification. It's like the coils, ether, and EMF/BEMF are saturating/condensing/capacitance. Tesla took things to extremes (>KV).
In a sense, aren't you just sending rapid pulsed current? Have you tried running more than one in parallel and series to see if you end up with a multiplied effect without adding more energy?
Can someone upload a video about sound waves for refrigeration? There is no such video on youtube. I've seen them before, a pipe or radiator/evaporator coil with sound waves, frost and dripping cold water. Please help?
Steven Mark replications are doing similar. His amps were really good also, running power tools and such. He got 220v on one coil. Good luck to you, and don't forget that you can apply the same technology to a copper radiator/evaporator to try and generate heat and a/c for the home; hot water, stove, refrigerator, dryer, all of the big items. Thanks for posting this.
I like your enthusiam and willingness to experiment. Don't listen to any know-it-all naysayers. Having said that... I did wonder why you did't test amps and compare P=IV numbers. Otherwise, I am inspired by your vids.
because I never seem to measure amps correctly. If someone could replicate this experiment, measure amps and post the data, I'd be glad to help with the setup if needed.
thanks, im well looking forward to hearing what this sounds like, when i wake up in the morning. i have wanted to muck about with digital signal generators and harmonics and physical objects. cant wait.
if this is a play, you need to work on your script....if not buy some electrical theory books....we all want to move up with this last revolution over free energy...just dont waste others time with ignorant observations and misdirect the innocent ones who want to help make this revelation happen...
... yes, but so what? Transformers are able to work both ways. As encodion said, you are simply showing a tranformer doing exactly what it is supposed to, and expected to do.
@singerxyz Call me skeptical, but it's normal for a transformer to work either way, due to Lenz's law. You can transform 12V to 120V, as long as the input is a.c...
Naw man, lol youre just stepping up the voltage from the headphone jack, XD
TheCessnaDriver 5 days ago
Good joke! You forgot about current and power. Voltage is not everything :P
yczytryczy 1 month ago
really great upload, thanks!
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perplexfraction 1 year ago
I think your problem is that the output impedance of your computer and your MP3 player is quite high, probably for earphones it's at about 1kohm, so your current is a few mA into the secondary of your transformer, it becomes even less on the output, so that's not going to be much good for charging stuff.
ubuntututorials 1 year ago
Regarding using the signal through a transformer to charge batteries, I don't think you have enough current to realign the molecules in the cell, so you can get some charge (equivalent voltage) but the dipole depletes rapidly. Are they rechargeable batteries? Some alkaline batteries will recharge but the results vary.
MattBlytheTheOne 3 years ago
so you are saying that with input waves of the same power you get varying output DC voltage depending on the frequency of the input signal. And that the best results ie. most output voltage, are achieved if the input signal is "in tune" with your transformer. Isn't this basically how a Tesla Tuned Circuit works?
MattBlytheTheOne 3 years ago
Matt, Mike here. Yea, exactly, but I am wondering about amp/joules in and out when you do that. Tesla's antenna radiant energy will power an oscillator into a coil, but I dont know about current, units of work, which would be the height of the waves. Right? Radiant ether is 60hz, but how strong are the kicks? We could short 30/60 cycles into a capacitor to amplify the kicks. HELP???
LoneOarman 3 years ago
Hi Mike, I think Tesla stepped the whole thing with a capacitor, spark gap and relay switch. He said you could receive 50volts per foot from the ether! I reckon if you get enough voltage then you are bound (by the laws of physics lol) to get a few amps ;) with the video above the input signal is acting like an ac signal, the higher the freq the more power I guess...? I think tuning is important.
MattBlytheTheOne 3 years ago
We are used to working with mains 50/60Hz but a lot of Tesla's systems worked with high freq input signals to generate high output voltages...
MattBlytheTheOne 3 years ago
Matt, there's a video on Tesla coil regarding resonance. I think he's referring to the two coils in the final transformer bouncing and building upon each other, amplification. It's like the coils, ether, and EMF/BEMF are saturating/condensing/capacitance. Tesla took things to extremes (>KV).
/watch?v=UN0YlOmxyRk
LoneOarman 3 years ago
In a sense, aren't you just sending rapid pulsed current? Have you tried running more than one in parallel and series to see if you end up with a multiplied effect without adding more energy?
captainpecan 3 years ago
Can someone upload a video about sound waves for refrigeration? There is no such video on youtube. I've seen them before, a pipe or radiator/evaporator coil with sound waves, frost and dripping cold water. Please help?
sirmikeydotcom 3 years ago
sirmikeydotcom..
. this is interesting, Did you seen the vid on youtube? the name?
Thanks
fdoca 2 years ago
Free 90v, 200ma, 15watts
/watch?v=Kdup42Epq0o
calfellows59 3 years ago
Steven Mark replications are doing similar. His amps were really good also, running power tools and such. He got 220v on one coil. Good luck to you, and don't forget that you can apply the same technology to a copper radiator/evaporator to try and generate heat and a/c for the home; hot water, stove, refrigerator, dryer, all of the big items. Thanks for posting this.
calfellows59 3 years ago
Did you do any more with this? Frequencies ect? anything useful?
waterhouse24 3 years ago
I like your enthusiam and willingness to experiment. Don't listen to any know-it-all naysayers. Having said that... I did wonder why you did't test amps and compare P=IV numbers. Otherwise, I am inspired by your vids.
mrbsman 3 years ago
because I never seem to measure amps correctly. If someone could replicate this experiment, measure amps and post the data, I'd be glad to help with the setup if needed.
singerxyz 3 years ago
Nice. At the resonance frequency this transformer is acting as an over unit.
singerxyz, can u give us more details?
This transformer is designed to step down from X volts to Y volts; Can u tell as the what's the values for X and Y?
Drevtoobe, he used a rectifier (4 diodes) to convert AC to DC
jordyx 4 years ago
It's a regular radio shack step down transformer designed to step down 120VAC to 12.6 VDC.
(the label is in the video)
Is that what you were looking for?
singerxyz 4 years ago
yes, thanks
jordyx 4 years ago
thanks, im well looking forward to hearing what this sounds like, when i wake up in the morning. i have wanted to muck about with digital signal generators and harmonics and physical objects. cant wait.
youarelackluster 4 years ago
Is this COP>1.0 ?
durian0 4 years ago
You're very good at thinking outside of the box. Let me know if you had some conclusive results.
JJRocco 4 years ago
if this is a play, you need to work on your script....if not buy some electrical theory books....we all want to move up with this last revolution over free energy...just dont waste others time with ignorant observations and misdirect the innocent ones who want to help make this revelation happen...
ubwest 4 years ago
congratulations!
you have rediscovered the basic function of a transformer!!!
sorry.. but the Nobel price for that is already taken :D
encodion 4 years ago 5
keep in mind, the voltage is increasing, where this transformer is designed to step down
singerxyz 4 years ago
... yes, but so what? Transformers are able to work both ways. As encodion said, you are simply showing a tranformer doing exactly what it is supposed to, and expected to do.
Snorglat 3 years ago
@singerxyz Call me skeptical, but it's normal for a transformer to work either way, due to Lenz's law. You can transform 12V to 120V, as long as the input is a.c...
ubuntututorials 1 year ago
Also, there is no such thing as a 'DC' side of a transformer.
Drevtoobe 4 years ago
So what? You are proving nothing.
Drevtoobe 4 years ago