Awesome...this could be engineered into a little housing of some sort add a switch mechanism of some sort and used to power an often used light(s).

Hey where do the capacitors go in the circuit

how did you split the base of the cfl light?

Should the coils be the exact same diameter?

What are the black stands used to place the coils on?

@awesomejoniscool The coils stands ( black plastic in this case ) must be constructed out of non-metal type materials, if not the energy transfer will cancel out ...( voltage output = zero )

what do we  need to transmitter high power in long distance

can u give me a circuit diagram for this i really need it for my project please!

email- tarungupta143@yahoo.com

The RFID chips have coil/capacitors!!.... so this means the chips can be remotely powered?... CREEPY!!!

An interesting use of Tesla technology.... using capacitors with field coils to excite energy through the air in the same fashion as a transformer's coils do or the interaction between a generator's stator and rotor.

I've seen other diagrams, using a capacitor to stabilize a charge across a field, before it can be applied (both sending or receiving). However, the other diagrams I saw with this type of technology only had one capacitor on the receiving coil... (in the TESLA COIL).

@InsideOutInc The theory was that if the capacitor in the Tesla Coil (which creates man-made lightning) was placed on the opposite side of it's high voltage transformer then it would pull energy from the ionosphere (which contains the potential for lightning).

This is kinda like switching which light bulb is going to be powered in the video above (the technology works both ways; Forward or backward, generator and motor designs are the same but opposite directions.

Hi.. if u put ur hand in between those coil..will it hurt??? when input in main...DC

hi .. i think u remember me ..buddy thank you to helping me in my science project.

i was thinking something :P ... that OUTPUT= INPUT then... i also thought that magnetic flux depends upon 3 factor from which one factor is ...... number of turns in primary coil ...so if we add more turns enough ..will it give us more output...?

could you tell me how you made this?

my email is vacer25@gmail.com

Yes, solder or clip the two wires from the coil / capacitor onto the un-cut wires as seen in the video.....Do not place the transmiiting / receiving coils to close to each other because the back EMF will blow the electronic ballast....Keep a distance of about 2" ( 5cm ) or so...Remember, fooling around with high voltages + current can kill, so be very careful, stay safe...

Well I finally got al my parts together to attempt this.. I still have one question. The picture shows which wires on the CFL to connect to the bifiliar coil. However, should the wires be cut and attached to the coil/capacitor or should the coil/capacitor be soldered onto the uncut wires?

@DoktorD1313 It looks like he connected them into a parallel circuit using alligator clips. If you disconnect the wires to the light the coil/capacitor should still send energy to the receiving coil/capacitor, thus lighting the "wireless-LED" bulb!

The 110-volt led light = Walmart, light socket base = Home Depo, Wire & ceramic disc capacitors from your local electronic parts store....Also check out electronic surplus stores, cheaper...

This is very interesting, Just a quick Question Where could you get all this stuff ? Could you find all of this stuff at a Department store or a Home depo,lowes, bunnings,warehouse Ect..? Nice project.

U better dont get your hand in there you just might get canser

@vlaflipgast You obviously don't know even the basics of a magnetic field. Perhaps you should go back to playing WoW.

I used a CFL 10 Watt made by MaxLite, to get the ballast. I have 110-volt wall outlets.

P.S. thanks for the video, i was able to make my own.

Master ¡

pretty cool, nice work

where/how did you get the electronic ballast?

Im doing an experiment similar to this wireless electricity however the current that i get is just 0.001mA, can i know how u get the current that is sufficient to light up the light bulb

I tried to do this experiment but I do not know how to connect to the CFL lamp to the coil (B). I made the connections to the CFL only using the visual image provided in the video. But when I checked the wires with a multimeter, the current was very feeble although the circuit is connected to the mains (220V).

And how do you calculate the natural frequency for the coil/ballasts? Is the capacitor's value important for resonance. Should I use a capacitor of lower value(for 220V)? Please help.

Forgive me if you think this is a stupid question, but I'm not 100% familiar with bifilar coils.. If there are two strands wrapped in parallel, where are the other two ends? I see a blue and white wire wrapped in parallel, but I only see one pair of ends on each coil (one white, one blue). Where are the other white and blue ends?

@DoktorD1313 I have not shown this in my video, but here is how to wind and wire a bifilar coil... Take two wires in-hand and wind them together to form a coil which should have have four ends when finished, Now, take one finished white end and one "beginning" blue end and soldered them together and leave as is..You should now have one white beginning end and one finished blue end, now connect the capacitor across these two ends... that`s it...

@epowerplus Thanks for clearing that up.. I greatly appreciate it!

U ROCKKKKKKKKKKKKKKKKKKKKK i made it at lastt thxthxthxxxx under$5 i made it.....i won credits goes to u man!!!!!!!!!!!!!!!1

I would do it , but it seems like a lot of work and you already saved me the time by showing me the results

Its like transformer.

i like it

good. now i will conect my ac unit to this..later

@PowMahmoud All ballasts are not created equal, values change with manufactures. The wire size / turns and the capacitor`s value is already noted in the video. The line voltage here in Canada is 120-volts, so the ballast of the CFL bulb and the values that I used in this demo will need to be re-worked if the line voltage is 220v..This video gives you the basics, the rest is up to you to solve...

what are the Ballast specifications ? (Input &output <Power & Frequency>)

@reachingsomething All ballasts are not created equal, specifications change with each manufacture...

Can you tell me that capacitors are connected parallel to both coils and can we use CFL Philips bulb. Thanks in advance

@mundi3210 Yes the capacitors are parallel to the coils...I am not sure about the Philips light bulb because all electronic ballasts in CFL bulbs are not created equal, some will work and some will not...Also, the house voltage here in Canada is 120-volts, so the capacitor`s value that I used in this experiment might not work in your country @ 220-volts . You will need to experiment to find out what will work....Good luck...

@epowerplus IT WORKS  PERFECT. THANKS

Remember I was here.Thai

hey! only a doubt: where did you place the capacitors on your experiment? is the electronic ballast very important for this experiment? please answer ASAP.. it's for a school investigation. :)

@douxamant.....The capacitors are connected across the bifilar coils.. then to the CFL bulb as seen in my video..Yes, the electronic ballast is important...It is been used as an oscillator to transmit the electricity...Plus, do not place the coils to close to each other or the back EMF will burn out your electronic ballast...A very important note: High voltages are generated by electronic ballasts, which can kill....so be very careful when doing this experiment...

where or how to you make does coils ???????/

Hi... Would you like to try some experiments with flat wound coils ?

I make them. PM me if interested.

y dont you do a step by step process for that people that do appreciate this and learn from it like me :)

very interesting!!

this experiment transfer via magnetically coupled resonance?

Which frequency?

both, transmitter and receiver, have the same frequency?

What does the cfl (ballast)?

Thanks!

@xee2vids...The aluminum plate placed between the two coils changes the inductance / capacitance and in turn changes the resonance of the coils preventing the energy transfer. ..One more thing, an aluminum plate placed in front of a resonanting magnetic field generates eddy currents with it. These eddy currents produce an opposing magnetic field which would prevent most of the energy transfer....A third (short circuit) coil placed between them will do the same...check it out for yourself.

Nice video. Thanks for posting it. The metal plate should not block coupling but yet it does for you, strange. I have done similar experiments and a metal plate does not block inductive coupling for me.

Nuckatucka13,

no offense or anything but your ignorance amazes me. Using this small scale model its possible to easily up scale and render the experiment more efficient. This setup merely proves the massive potential of a larger scale project.

wich tesla tried o do....but alas..he ran out of money...LOL

@photon101203

actually JP morgan cutted the fundings, as the earlier and original financier John Jacob Astor died on the Titanic

i would imagine this would be high effienciency(depending how closer ur primary and secondary coils are), plus im pretty sure this is similat to how transformers work(I.E:the ones on utility poles).

but instead of using the same gauge wire u would use a bigger gauge for the second coil but less turns, which would decrease the voltage going into ur house, but lower current.

hey, did you try to measure the efficiency of this setup. It would be some what funny if you managed to achieve high efficiency with such a simple setup!

its cool and everything but whats the point in t being wireless if u have to have it 1 inch away from the other thing... just saying... nice vid

Well, imagine a world where you only have to set things close to the wall for them to work instead of being forced to plug them in.

@Nuckatucka13

"what's the point... to have it 1 inch away"

the power station on the right is the same size as the one on the left. This is a $20 experiment. ideally larger coils can be made and either designed to appear decorative or functional like a large picture frame or perhaps even built right into the frame of the wall for more versatility.

this tech could ideally remove all need for wires and cords. There's something wrong with talking on a cell while it's charging on the adaptor lol

Where do you place the capacitor?

megavox: @metals : Q1 /Q2

Q1

All metals harbor 'free electrons' and it's the dynamic field emulating from the transmitter coil that's stimulating them. This is how 'eddy current's' are generated and it's this activity in the aluminum plate that's creating a load and hence depriving the receiver coil energy.

Q2

A material that acts as a "reflector" of energy/ magnetism is said to be diamagnetic in nature, ie is able to establish a reverse field opposing the inertial. Bismuth is one of best.

which is the milimetragem wire?

amazing work

They say, aluminum is a "reflector" of energy/magnetism while iron is an "absorber" , there is 1 more metal with a set property which I can't recall , if anyone can refresh my memory it would be much appreciated

The wonderful law of squares, basically a linear 2 dimensional representation of space and energy.

That's why he used the ionosphere to radiate energy, lightning travels via this atmospheric layer @ a set distance from sea level ~ aka HAARP ~ Bernard Eastlund :~)

Tesla transmitted wireless energy over great distances in a pulse mode (set frequency), and gathers the residual radiant energy (lighting) from that layer, the frequency timing was based on circumference of the earth.