That shielding had to have been well researched! Was it a glass and mylar 'infinity mirror'? If those are pull magnets under the compact florescent light, did it restrict the emissions to a cone or reduce the spreading? Did you feel any diathermy affect afterward?
Its neat and all.. But there are some VERY good practical reason we dont use the 2.4 GHz band for power transmission, mainly it is crazy inefficient. You have line power coming in, then you're stepping it up to ~4200VDC (Pulsed at 120Hz because of the voltage doubler in the circuit) at a few hundred milivolts, so almost 1000W of of energy is flowing to the magnetron, ok, but the magnetron is not even close to efficient so you're getting probably 600-700W of RF. Then you have to somehow capture it, rectify it, filter it, and probably use an inverter to turn it BACK into line power some (small) distance away? That seems like a super roundabout way of doing what a long extension cord would do. Oh and it doesn't end there, you're interfering with a huge number of systems that use the 2.4 GHz band for communication, a cheap magnetron like the type used in civilian hardware does not emit a nice narrow band sine wave of RF, it is pulsed in a crude way and as such the pulses it emits are very wide. Over 10 Mhz on either side of a main lobe centered on whatever frequency it was cheaply cast to resonate at. Governments and police now use these with a horn to take down drones and RC planes that fly where they shouldn't, and jam Wifi connections too, by adding a waveguide that uses slots and resonant cavities to broaden the signal even more. Those devices pulse their magnetrons at PRF's known to interfere with certain protocols, RC Control GFSK, WiFi, Bluetooth, LoRa, etc... You are broadcasting hundreds of watts of noise whenever you run a device like this
@@matthewpierson2847 yeah I kind of forgot to make my point there... my point was that there is a highly effective way to transfer power as RF energy, it's just not practical yet, it's a waveguide connected array of superconductive cone-shaped antennas, very small metal rings with Integrated diode/diode equivalent junctions. In theory it would make high current power available from any source of EM, even light. One day it will make power transfer beams possible, and replace solar panels. That's what people should be working on, finding a way to make such an array, without the superconducting wire rings and cooling system, it may become practical. (Experimental arrays have been built, but the cryocoolers use more energy than the array picked up, not practical. But, if you don't need it to be so cold... billion dollar idea.
what's the specification of the CRO you used? Usually Magnetron Are of high energy and high power right? Can we use lower frequency and milli watt capacity CRO for testing?
in microwave oven if we use two magnetron or three in a series or parallel or opposition or centric position, will it cook fast and even since energy comes from all side or range of waves increased microwave oven makers try this also?
by increasing the number of magnitron and lowering the power factors just by application of resistance which are adjusted as required like fan regulators
As long as they are able to supply enough current to get the filament hot without getting too hot themselves. I'd run a series of short tests to find out how hot the batteries get. I don't see why it wouldn't work otherwise.
The tungsten filament requires around 3.2 volts minimum at 10 to 11 amps. 12 at most. If the voltage is too high you could burn and short the lifespan of your magnetron.
Without a focusing antenna the microwaves are emitted radially and drop in power over a short distance. The most I've read on human microwave interaction is that at high energy densities (beyond what a microwave is capable of) the nerves of the body will become excited and transmit a feeling of pain, without any damage actually occurring.
6 лет назад
Chris Brown how much output frequency(in Hz)can be get from magnetron. And one more thing does the both microwaves are same which is use in communicaion and which is in output magnetron.
I believe the average frequency is 2,450 MHz. And I'm not sure what you're asking. If you're asking if a microwave oven magnetron can be used for communication the answer is kind of. In communication signals are usually modulated, encoding information in different varying patterns in the signal. You would not be able to do this with the microwave setup as it is.
6 лет назад
thanks for all the information u gave. And one thing how much power cathode will take to start emitting electrons
are we able to rectifying the wave propagation in microwave so we increase or decreased the wavelengths instead of timer since if we use only time factors than the food get cooked from inside out but if we variable the wavelengths then the food cooked more evenly, so if we redesigned the cavities of magnitron or automatically double splitting the waves or triple splitting the waves then the resulting pattern of propagation could coiling one another and food cooked evenly from all sides
I think that is what the new inverter microwaves are doing, but I'm not sure. Some of the very old microwave ovens appear to have really cavernous anodes of a non-copper material.
Magnetrons release microwaves in pulses, it's likely that it is picking up the frequency of the pulses. Also I just realized the scope can only handle signals up to 25 MHz, so it wouldn't pickup the 2.4GHz microwaves, at least not in a very meaningful way.
The microwaves can be collected with an appropriate sized antenna connected to a tank circuit. The output of the tank circuit would then be connected to a diode in order to rectify the signal. The rectified signal can be connected to a capacitor to store the incoming charge. What we have now is a capacitor charged to a voltage relative to the signal strength. Now all that's needed is a voltage regulator to output a clean 5VDC to your phone!
Well "wireless" energy could be looked at in such a way that the conducting "wires" are simply the surrounding air, and the ground! Although that would be a gross simplification.
@@bombtek2451 Same setup used in a standard microwave, it uses a single capacitor to double the voltage of the MOT. Gives a little over 4KV to the magnetron.
You sitting there like a boss 😂
Instructions uncler, now I look like a mad scientist
That shielding had to have been well researched! Was it a glass and mylar 'infinity mirror'? If those are pull magnets under the compact florescent light, did it restrict the emissions to a cone or reduce the spreading? Did you feel any diathermy affect afterward?
Just a simple window with a wire mesh, and not nearly close enough to heat me up :)
Please teach us. Can you do a detailed video on this please 🙏
Reverse magnetron and get cold or overunity? Sucks up infrared waves instead of putting out infrared/ microwave s?
Hi. You can tell me how did you do connection with all this that. ? Thanks
Can you post the circuit diagram?
YOO CAREFUL DAWG YOU MIGHT GET COOKED!!!
Going to another room so you don't cook yourself, only from a safer distance with walls in between.
Super génial 😊😊😊😊😊😊😊😊😊😊😊😊😊😊😊😊😊😊😊😊😊😊😊😊😊😊😊😊😊😊😊😊😊😊
Its neat and all.. But there are some VERY good practical reason we dont use the 2.4 GHz band for power transmission, mainly it is crazy inefficient. You have line power coming in, then you're stepping it up to ~4200VDC (Pulsed at 120Hz because of the voltage doubler in the circuit) at a few hundred milivolts, so almost 1000W of of energy is flowing to the magnetron, ok, but the magnetron is not even close to efficient so you're getting probably 600-700W of RF. Then you have to somehow capture it, rectify it, filter it, and probably use an inverter to turn it BACK into line power some (small) distance away? That seems like a super roundabout way of doing what a long extension cord would do. Oh and it doesn't end there, you're interfering with a huge number of systems that use the 2.4 GHz band for communication, a cheap magnetron like the type used in civilian hardware does not emit a nice narrow band sine wave of RF, it is pulsed in a crude way and as such the pulses it emits are very wide. Over 10 Mhz on either side of a main lobe centered on whatever frequency it was cheaply cast to resonate at. Governments and police now use these with a horn to take down drones and RC planes that fly where they shouldn't, and jam Wifi connections too, by adding a waveguide that uses slots and resonant cavities to broaden the signal even more. Those devices pulse their magnetrons at PRF's known to interfere with certain protocols, RC Control GFSK, WiFi, Bluetooth, LoRa, etc... You are broadcasting hundreds of watts of noise whenever you run a device like this
It's just a fun experiment. If anyone thought this was efficient then it would be mainstream. Don't look so into it, we understand.
Yeah we know all this
@@matthewpierson2847 yeah I kind of forgot to make my point there... my point was that there is a highly effective way to transfer power as RF energy, it's just not practical yet, it's a waveguide connected array of superconductive cone-shaped antennas, very small metal rings with Integrated diode/diode equivalent junctions. In theory it would make high current power available from any source of EM, even light. One day it will make power transfer beams possible, and replace solar panels. That's what people should be working on, finding a way to make such an array, without the superconducting wire rings and cooling system, it may become practical. (Experimental arrays have been built, but the cryocoolers use more energy than the array picked up, not practical. But, if you don't need it to be so cold... billion dollar idea.
All this mess for turning on a lamp ?
What link I have to check??
Sir i have one question what happen when we put our hand in front of magnitron and on the switch
it warms up :)
what's the specification of the CRO you used? Usually Magnetron Are of high energy and high power right? Can we use lower frequency and milli watt capacity CRO for testing?
Super! Thank you very much!
What is the range of magnetron
Without a waveguide, it falls off at a rate of source power * 1/(r^2)
Do you measure the input current or the output microwaves with the scope?
The output microwaves. I connected the scope to a makeshift antenna, placed a few feet from the magnetron.
@@ChrisBrown1994 Kind of strange why its not a sine wave.
THAT GRAPH IS LIKE MY BIPOLAR LMAO.....HIGH HIGHS, AND LOW LOWS
if we use magnetron to heat the furnaces then what happened like to melt the iron or to boil the petroleum in refinery,
in microwave oven if we use two magnetron or three in a series or parallel or opposition or centric position, will it cook fast and even
since energy comes from all side or range of waves increased
microwave oven makers try this also?
This is basically correct.
WAY ta go! spilling radiation in the air around you!
Hola cómo está como se hace está conección
Magnetron Experiment must wear sun glasses before test
by increasing the number of magnitron and lowering the power factors just by application of resistance which are adjusted as required like fan regulators
This invention also use a Microwave for hydrogen production with 5 volt ??? @ @
"How to get cancer in 2 minutes"
You won't get cancer from this but you can burn your eyes out
Is it possible to heat the cathode filament by three 9 volt batteries? My MOT does not have the middle coil for heating it "the normal way"...
I mean the three 9 V in parallel...
As long as they are able to supply enough current to get the filament hot without getting too hot themselves. I'd run a series of short tests to find out how hot the batteries get. I don't see why it wouldn't work otherwise.
The tungsten filament requires around 3.2 volts minimum at 10 to 11 amps. 12 at most. If the voltage is too high you could burn and short the lifespan of your magnetron.
My head hurts after i play like this
A tutorial?
Pourquoi prendre des risques avec un magnétron, alors qu'on peut avoir les mêmes résultats avec une bobine Teslas alimenté sous 12 volts.
did u make any reciver
Not yet. However the bulb acts as a crude receiver in theory.
Without a focusing antenna the microwaves are emitted radially and drop in power over a short distance. The most I've read on human microwave interaction is that at high energy densities (beyond what a microwave is capable of) the nerves of the body will become excited and transmit a feeling of pain, without any damage actually occurring.
Chris Brown how much output frequency(in Hz)can be get from magnetron. And one more thing does the both microwaves are same which is use in communicaion and which is in output magnetron.
I believe the average frequency is 2,450 MHz. And I'm not sure what you're asking. If you're asking if a microwave oven magnetron can be used for communication the answer is kind of. In communication signals are usually modulated, encoding information in different varying patterns in the signal. You would not be able to do this with the microwave setup as it is.
thanks for all the information u gave. And one thing how much power cathode will take to start emitting electrons
add audio description of whats going on. thats why you don't have subscribers
If you're too close it can also destroy your eyes
are we able to rectifying the wave propagation in microwave so we increase or decreased the wavelengths instead of timer since if we use only time factors than the food get cooked from inside out but if we variable the wavelengths then the food cooked more evenly, so if we redesigned the cavities of magnitron or automatically double splitting the waves or triple splitting the waves then the resulting pattern of propagation could coiling one another and food cooked evenly from all sides
I think I understand what you're saying.. While possible, it seems wildly impractical.
I think that is what the new inverter microwaves are doing, but I'm not sure. Some of the very old microwave ovens appear to have really cavernous anodes of a non-copper material.
1:50 Frequency in just Khz !!!
Magnetrons release microwaves in pulses, it's likely that it is picking up the frequency of the pulses. Also I just realized the scope can only handle signals up to 25 MHz, so it wouldn't pickup the 2.4GHz microwaves, at least not in a very meaningful way.
it is requested to increased the power factors of microwave oven so they cook the food more efficiently
is it free energy?
All energy is free!
Free as in money, no. Free as in making energy out of nowhere, fuck no. You can’t make energy out of the blue. Do some research
There is no Free energy unless u have a long extension cable to plug in your neighbors outlet
K_{1}+U_{1} =K_{2}+U_{2} - conservation of energy.
en.wikipedia.org/wiki/Second_law_of_thermodynamics
how can we collect 12v from a 2.4ghz magnetron
The microwaves can be collected with an appropriate sized antenna connected to a tank circuit. The output of the tank circuit would then be connected to a diode in order to rectify the signal. The rectified signal can be connected to a capacitor to store the incoming charge. What we have now is a capacitor charged to a voltage relative to the signal strength. Now all that's needed is a voltage regulator to output a clean 5VDC to your phone!
Hola quisiera que me respondan se puede construir un enividor de señal así como para un drone con un magnetro
No hablo espanol
Hello, I would like you to answer me, you can build a signal splitter as well as for a drone with a magnetro
Hahaha
*DIE, NEIGHBOR'S WIFI! DIE!*
So this is how the fires in Paradise, California were started.
Du bist cool mach weiter so.
Ich finde deine Videos cool.
Bitte um antwort.
Ich bin dein Fan....
Juicy microwave radiation
Holy shit that is dope. Now charge your phone using it.
Challenge accepted.
Faltó la parte del video en donde al rascarse la cabeza se le cae los pocos de pelo (cabello) y ampollas en la piel....
Pretty much nothing is wireless because there will always be something connected to a wire
Well "wireless" energy could be looked at in such a way that the conducting "wires" are simply the surrounding air, and the ground! Although that would be a gross simplification.
شكرا لكم
Did anyone see any schematics or anything. If u gonna share then shzre
@@bombtek2451 Same setup used in a standard microwave, it uses a single capacitor to double the voltage of the MOT. Gives a little over 4KV to the magnetron.
Something out of frankerstien
Nice
Like a boss!!! :-)
Creazy
Votre explication était fascinante😂😂
Um this isn't wireless energy this has wires everywhere
Touche.
❤❤❤❤❤😊😊😊😊🎉🎉🎉🎉
careful !
This guy will never have kids!!
:D
Magnetron tesla coil
not really wireless and lets alot of wasted energy and wasted cancer rays out
Ist auch sehr Energie sparend 😂😂
やったことあるよ。この実験!なんか近すぎると手が痛くなるというのは嘘だけど
please read my request
Oz
read my request
ඔහොම ඉන්ඩ එපා යකෝ
careful !