Cheat: Assuming a 12 V & 3 W LED bulb which draws 0.25 A,
and a 1.5 sq mm/ AWG 16 lead (having an inherent voltage drop of 6 V /km),
the applied battery voltage would only have to be 3 600 012 V [or 3.600012 MV].
Have a nice weekend, all!
Johan
Cheat: Assuming a 12 V & 3 W LED bulb which draws 0.25 A,
and a 1.5 sq mm/ AWG 16 lead (having an inherent voltage drop of 6 V /km),
the applied battery voltage would only have to be 3 600 012 V [or 3.600012 MV].
Have a nice weekend, all!
Johan
Last edited by DIYSwede; Feb 4, 2022 at 11:33 AM.
Bullet500 (Feb 5, 2022), Floradawg (Feb 5, 2022), johncg (Feb 6, 2022), nova_robotics (Feb 4, 2022), rlm98253 (Feb 6, 2022)
I watched this when it first came out. It's a good video, but it's a bit hand wavy with the whole physics woo. I get the Poynting vectors and everything, but everything in this video can still be explained classically by capacitive coupling of the parallel wires. Dave Jones at EEVBlog did a really good analysis/rebuttal of the video from a classical electrical engineering perspective:
Science Asylum made a video about this in 2019. If you haven't checked out that channel you really should. It's spectacular. Much higher quality than most physics/science Youtube channels.
Last edited by nova_robotics; Feb 4, 2022 at 09:59 PM.
BuffaloJohn (Feb 5, 2022), DIYSwede (Feb 5, 2022), Floradawg (Feb 5, 2022)
nova_robotics (Feb 6, 2022)
Surprisingly, the light will illuminate at much less voltage. There are capacitive and inductive effects at work. Think of the wires as two plates of a parallel plate capacitor, or the loop as two tightly coupled dipole antennas. Even if you cut the wires (at the farthest points) the bulb would still illuminate at perhaps a few hundred, or a few thousand volts. I suspect it would also oscillate because that's essentially a giant RLC circuit with a 0 ohm termination at each end.
Sure, a 12 VDC LED lamp will dimly turn on at app 8 V.
I can sorta buy that these "nearly infinitesimally long" wires could acts as dipoles and/or as a capacitance (with a pretty big serial inductance to boot).
But then - I simply can't wrap my head around getting DC to flow continously thru a cap, transformer (or an antenna),
other than for an initial, single LED blink (and then perhaps another when disconnecting the battery) - but then that's only me.
AC is a whole different ball game, though.
2 cents
Johan
Positively irrelevant to the thread, but still funny:
Waste 10 (+22 in Pt 2) more minutes of your life watching a solution to another hypothetical reasoning/ unprovable hypothesis:
Floradawg (Feb 7, 2022), nova_robotics (Feb 7, 2022)
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