Post by spacecase0 on Mar 20, 2020 23:56:45 GMT -5
so here is something worth exploring
read this PDF first
blog.lege.net/Mathias_Bage/GLCRA-MAGVID-annotated.pdf
here is another thread on the topic, assuming that it still works
www.energeticforum.com/forum/energetic-forum-discussion/renewable-energy/14472-an-inquiry-into-magvid
so after you read the PDF,
here is the quick build ideas that I have been thinking
you may wonder how to actually build this device. it takes a bit of work to convert an idea into hardware.
and now that this virus from china is looking bad, I will share my design work and formulas so that anyone else will have an easier time building it if they want to.
I will not bother with pictures as you can refer to the PDF and I can't upload here, and my drawings are not that good either.
so the 4 AC driven coils are set up in sets of 2 Helmholtz coils, they are physically at 90 degrees and electrically driven at 90 degrees (that also = 1/4 wavelength delay). The 4 coils are not quite a Helmholtz coil set as they are going to be squished into the correct shape.
I chose a single turn 27 foot diameter square coil for each. when all 4 are put together, they have a diameter of 27 foot and a height of 6.75 foot.
I am going to use a DC magnetic field made out of 50 foot sections of copper tubing. so the diameter there is 31.8 foot.
there are a few options here that I will go over in a bit. but trying to get the magnetic field strong enough so that it is generated inside the AC coils is likely going to cost to much, so the electron orbit is going to be inside the DC coil.
so the gap between 27 foot and 31.8 should let something (electron) orbit at the speed of light when the AC coils are run at a frequency of 19.67MHz and 36.43MHz. but the practical limit for electrons to go before they start radiating energy is about 80% the speed of light, and this gives us 15.74MHz to 29.14MHz. either way I plan on running it from 20MHz to 29MHz, there are ham radio bands in that range where it is easy to get radios and amplifiers for and potentially even legal to transmit.
I have thought about how to remove error from driving the AC coils,
the 2 opposites need to be series, but with just one turn at resonant frequency (or somewhat close as I plan on), it would take to long for standard wiring to work. so... my solution is to use coax cable, and make the cables about one wavelength long (electrically, not physically. just multiply by velocity factor, (0.78 is my cable)).
so each coil is connected with one wavelength of coax cable, the 2 opposites are connected in series at a junction box, and one set will have an additional 1/4 wave delay to get that 90 degrees. the 2 sets will then be connected in parallel.
this should make the total impedance somewhat tolerable to a standard HF radio transmitter and antenna tuner.
the 1/4 wave delay may have to be changed if you change frequencies to much, but the one wavelength should not because they are all the same delay time.
there are a couple of options for the DC coil, the one I would like to do, and the one I can afford to do.
I would like to have some thickness to the coil so that the field will be large,
but assuming that I have 2 turns (3/4" copper tubing) that are spaced 6 foot apart, I would need at least 540A, with the voltage required, this is something like 15 horse power... could likely do this with a homo polar generator quite easily. but the disk and brush connections would be a bit hard. would likely need to be a substantial thickness of aluminum with something like a mercury jet for the electrical connections. and then it would need to be totally enclosed as well. lots of pricy hardware...
if you want a visualization on this, go look at the ARV (fluxliner) drawings. the center disk and the magnetic coil around it, it would be set up to be self excited. so you would start it with electricity to the coil and then put in mechanical energy to spin the disk to make the field stronger. pretty easy to add 15HP in mechanical energy to a spinning disk.
very large magnetic fields can be created this way (and by large, I mean an infinite magnetic field with a finite and possible amount of current is possible)
the other possible solution is to just put the 2 coils closer together, if they are right on top of each other, they only need 25 amps to get the required field, and into the copper tubing, this should only be a few volts, so not much power at all.
the only real draw back is that the field is only going to be strong enough for a few inches of height.
if you are calculating out how much of a magnetic field you need,
for an electron at 80% the speed of light (or at least I think it was 80%..., it was 300MeV either way), it is going to be 0.00679/(radius in meters)=magnetic field in Tesla
plenty of online calculators for the magnetic field of a coil, and it is a complex mess, so I will not post that here.
I hope this helps anyone trying to build this.
what gets me the most about running all the numbers is that if I were to build this idea as I wanted to, it would end up looking just like the ARV after adding directional control.
one more thing, this device is explicitly made to change the energy state of what is inside it. so, you want the radio transmitter and its power supply inside the device and ungrounded, if you have it all external and plug it into the wall outlet, it is unlikely to work as intended.
read this PDF first
blog.lege.net/Mathias_Bage/GLCRA-MAGVID-annotated.pdf
here is another thread on the topic, assuming that it still works
www.energeticforum.com/forum/energetic-forum-discussion/renewable-energy/14472-an-inquiry-into-magvid
so after you read the PDF,
here is the quick build ideas that I have been thinking
you may wonder how to actually build this device. it takes a bit of work to convert an idea into hardware.
and now that this virus from china is looking bad, I will share my design work and formulas so that anyone else will have an easier time building it if they want to.
I will not bother with pictures as you can refer to the PDF and I can't upload here, and my drawings are not that good either.
so the 4 AC driven coils are set up in sets of 2 Helmholtz coils, they are physically at 90 degrees and electrically driven at 90 degrees (that also = 1/4 wavelength delay). The 4 coils are not quite a Helmholtz coil set as they are going to be squished into the correct shape.
I chose a single turn 27 foot diameter square coil for each. when all 4 are put together, they have a diameter of 27 foot and a height of 6.75 foot.
I am going to use a DC magnetic field made out of 50 foot sections of copper tubing. so the diameter there is 31.8 foot.
there are a few options here that I will go over in a bit. but trying to get the magnetic field strong enough so that it is generated inside the AC coils is likely going to cost to much, so the electron orbit is going to be inside the DC coil.
so the gap between 27 foot and 31.8 should let something (electron) orbit at the speed of light when the AC coils are run at a frequency of 19.67MHz and 36.43MHz. but the practical limit for electrons to go before they start radiating energy is about 80% the speed of light, and this gives us 15.74MHz to 29.14MHz. either way I plan on running it from 20MHz to 29MHz, there are ham radio bands in that range where it is easy to get radios and amplifiers for and potentially even legal to transmit.
I have thought about how to remove error from driving the AC coils,
the 2 opposites need to be series, but with just one turn at resonant frequency (or somewhat close as I plan on), it would take to long for standard wiring to work. so... my solution is to use coax cable, and make the cables about one wavelength long (electrically, not physically. just multiply by velocity factor, (0.78 is my cable)).
so each coil is connected with one wavelength of coax cable, the 2 opposites are connected in series at a junction box, and one set will have an additional 1/4 wave delay to get that 90 degrees. the 2 sets will then be connected in parallel.
this should make the total impedance somewhat tolerable to a standard HF radio transmitter and antenna tuner.
the 1/4 wave delay may have to be changed if you change frequencies to much, but the one wavelength should not because they are all the same delay time.
there are a couple of options for the DC coil, the one I would like to do, and the one I can afford to do.
I would like to have some thickness to the coil so that the field will be large,
but assuming that I have 2 turns (3/4" copper tubing) that are spaced 6 foot apart, I would need at least 540A, with the voltage required, this is something like 15 horse power... could likely do this with a homo polar generator quite easily. but the disk and brush connections would be a bit hard. would likely need to be a substantial thickness of aluminum with something like a mercury jet for the electrical connections. and then it would need to be totally enclosed as well. lots of pricy hardware...
if you want a visualization on this, go look at the ARV (fluxliner) drawings. the center disk and the magnetic coil around it, it would be set up to be self excited. so you would start it with electricity to the coil and then put in mechanical energy to spin the disk to make the field stronger. pretty easy to add 15HP in mechanical energy to a spinning disk.
very large magnetic fields can be created this way (and by large, I mean an infinite magnetic field with a finite and possible amount of current is possible)
the other possible solution is to just put the 2 coils closer together, if they are right on top of each other, they only need 25 amps to get the required field, and into the copper tubing, this should only be a few volts, so not much power at all.
the only real draw back is that the field is only going to be strong enough for a few inches of height.
if you are calculating out how much of a magnetic field you need,
for an electron at 80% the speed of light (or at least I think it was 80%..., it was 300MeV either way), it is going to be 0.00679/(radius in meters)=magnetic field in Tesla
plenty of online calculators for the magnetic field of a coil, and it is a complex mess, so I will not post that here.
I hope this helps anyone trying to build this.
what gets me the most about running all the numbers is that if I were to build this idea as I wanted to, it would end up looking just like the ARV after adding directional control.
one more thing, this device is explicitly made to change the energy state of what is inside it. so, you want the radio transmitter and its power supply inside the device and ungrounded, if you have it all external and plug it into the wall outlet, it is unlikely to work as intended.