Theres much benefit that can derive from the helmholtz coil not realized by many... In terms of stability or stabilizing, particle accelerator, keystone to the unified field😉
We run the same experiment except instead of using an an electron beam current flow (in the tube), we create current flow with a coil that is physically adjacent to, but not touching, a lamination of aluminum foil layers. Also, unlike this experiment where a DC voltage is used to create the current, we use an alternating RF voltage at 10 Mhz. 10Mhz gives a skin depth of about 25 microns (0.025mm), and that is also the thickness of store-bought aluminum foil. The lamination is a series of 10 layers of foil separated by an insulation between each foil layer. The helmholtz coil is set up with its magnetic field oriented vertically, and the lamination of metal is positioned and oriented horizontally in the midst of the stable B field of the HH coil. At 10Mhz, we are of course creating the Lorentz force that creates coherent (oscillating) accelerations of the charged particles in the metal. The eddy current coil is positioned close enough to the foil lamination to induce eddy currents, and the HH magnetic field induces coherent accelerations of the charged particles in the eddy currents at a 10Mhz rate.
What would the behavior of an electromagnetic beam be if directed through a Helmhotz coil? Is there a different result with a 4 or 6 coil configuration (all orthogonal)? Is there a direct response depending of frequency of the EM transmission (10kHz - 1 GHz) and current being run through the coils? Is there a different response with the beam being additive to the coil field as opposed to being contrary to the field coil? Would the transmission simply be deflected, interfered, or potentially blocked?
Wonderful,but just as an aside you should have mentioned that the old fashioned TV uses copper wire coils to move an electron beam . I know it’s not exactly the same as done here but it does give insight.
Please i need an answer What happens to the magnetic field value if we replaced the vacumed tube by insulator substance? And what happens if it was magnetically conductive??
Guy is handsome😂
Theres much benefit that can derive from the helmholtz coil not realized by many... In terms of stability or stabilizing, particle accelerator, keystone to the unified field😉
We run the same experiment except instead of using an an electron beam current flow (in the tube), we create current flow with a coil that is physically adjacent to, but not touching, a lamination of aluminum foil layers. Also, unlike this experiment where a DC voltage is used to create the current, we use an alternating RF voltage at 10 Mhz.
10Mhz gives a skin depth of about 25 microns (0.025mm), and that is also the thickness of store-bought aluminum foil.
The lamination is a series of 10 layers of foil separated by an insulation between each foil layer.
The helmholtz coil is set up with its magnetic field oriented vertically, and the lamination of metal is positioned and oriented horizontally in the midst of the stable B field of the HH coil.
At 10Mhz, we are of course creating the Lorentz force that creates coherent (oscillating) accelerations of the charged particles in the metal. The eddy current coil is positioned close enough to the foil lamination to induce eddy currents, and the HH magnetic field induces coherent accelerations of the charged particles in the eddy currents at a 10Mhz rate.
Video?
What would the behavior of an electromagnetic beam be if directed through a Helmhotz coil? Is there a different result with a 4 or 6 coil configuration (all orthogonal)? Is there a direct response depending of frequency of the EM transmission (10kHz - 1 GHz) and current being run through the coils? Is there a different response with the beam being additive to the coil field as opposed to being contrary to the field coil?
Would the transmission simply be deflected, interfered, or potentially blocked?
Awesome sir
Thank u so much
Good one
It would be great if you showed a diagram of what the pattern was of the magnetic lines of force.
❤️❤️❤️
Awesome!
nice demo
Very good 🙏🙏🙏🙏
Wonderful,but just as an aside you should have mentioned that the old fashioned TV uses copper wire coils to move an electron beam . I know it’s not exactly the same as done here but it does give insight.
I’ve been wondering has anyone tried to amplify two magnets 🧲 with the coils to see what kind of effects it would have?
Which gas is inside the tube?
And why your electron beam is so clear, mine is very
Dull in green color
Mercury vapour I believe, it gives off blue light if hit by electrons greater than around 10.4 eV
Please i need an answer
What happens to the magnetic field value if we replaced the vacumed tube by insulator substance? And what happens if it was magnetically conductive??
اذا مادة عازلة ما بيصير في تيار
I need someone to design a small compact helmhotlz coil for me? Preferably able to fit on the lay out of a motherboard, and if possible waterproof.
how to setup this
You should re-record this without a mask.
Why the mask ?
I made this in the thick of COVID - masks were required on campus!
I refused to wear the symbol of tyranny. It offered me many opportunities to school people about the sillyness of these things. Educate those fools!