Headchef
Active Member
You folks might find this rather interesting…
I'm erring on the side of caution here... to the point the author may have lost it. This appears to imply information can be transmitted faster than light...
JSmith
But it seems assume that is instant when it is not?Actually it doesn't imply that since information is transmitted from the source to the bulb which is only 1m away.
It will take a second or two for bulb to start glowing.Sure, but the guy avoids explaining the tricky part: what would happen if battery and bulb would be each at one of the far ends of the circuit?
Wikipedia has all the answersIt will take a second or two for bulb to start glowing.
What Derek and his team are attempting do is define a topology that can only described by field theory. The trouble is I can claim it's the the two 150000 km capacitors, formed by the parallel wires, that allow build turn on almost instantly.
Quantum entanglement implies instantaneous information transfer. I'm not saying this video uses that argument because I didn't watch it, and don't have much interest to.The textual details;
Circuit Analysis.pptx
Outline These slides contain analyses and results from Dr. Robert Olsen Dr. Richard Abbott (I put title slides in between to indicate the author)docs.google.com
I'm erring on the side of caution here... to the point the author may have lost it. This appears to imply information can be transmitted faster than light...
JSmith
Yeah I know (that is amazing), however that is not what is being referenced here... and with that distance is irrelevant (so far). Also, no real information is being passed when the entangled particles affect each other.Quantum entanglement implies instantaneous information transfer.
I suspect we can define information states that equal the state of the entangled particles at each point in space to derive instantaneous information at both ends. We might also use multiple entangled particles in reference to each other and define information states by relative differences in the particles' states.Yeah I know (that is amazing), however that is not what is being referenced here... and with that distance is irrelevant (so far). Also, no real information is being passed when the entangled particles affect each other.
JSmith
What kind of amuses me is that everyone (here and in the other thread) is arguing about the speed propagation question, which seemed only posed by Veritasium as a teaser/intro into the topic. The more interesting part to me and arguably perhaps for the audio hobby in general, is the main point of the video, that energy is not traveling through the wires but is a sum of the electromagnetic fields generated around the wires. That makes a pretty solid case for why cables in audio don't matter, as long as they are of a high enough quality to carry a current unimpeded over a distance of a few meters (which doesn't take much).
I think we are in Ivor Catt territory so I will tread carefully. For someone like me with only basic maths and very little understanding of Poynting's theorem I can take a simplified view. We have two capacitors 150000km long; admittedly shorted at the far end. I can argue that is initially the capacitance that allows the light bulb to illuminate very quickly.
I'm not trying deny physics, I'm just taking a simplified view that is more helpful for day to day calculations. Rocket scientists get by using Newton's equations and very rarely resort to Einstein