@jea48 I believe that he is simply wrong. Thicker wire has lower inductance.
Example: 2mm dia wire (gauge 12) has inductance of 345nH/ft, while 1mm dia wire (gauge18) has inductance of 388nH/ft (not much of a difference)
As for capacitance - single wire or single pair of wires will have less capacitance than multiple wires or pairs - both overall capacitance between wires and capacitance to shield (if any).
Inductance of the pair (cable) will be higher when wires are apart (proportional to area between them) so getting them close is important, better yet twisting them.
Twisting reduces inductance of the pair but increases capacitance. Inductance is important in speaker wires more than capacitance so twisting is beneficial. In addition twisting exposes wires evenly to external electric or magnetic fields reducing pickup (by cancelation). It works fine for offending signals with wavelength much longer than the pitch of twist. For low frequency electromagnetic interference speaker cable is too short to become effective antenna (1/10 wavelength antenna at 1MHz is 30m).
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Each of four individual wires will have higher inductance but connected in parallel most likely won't result in 1/4 of individual wire inductance (lower than inductance of solid 14 gauge wire) because they are in magnetic field of each other. I suspect overall net inductance will end up the same as inductance of individual solid gauge 14 wire. |
@jea48 What I said before about 4 wires having the same inductance as equivalent 1 wire would be true if 4 wires fit in the diameter of solid 1 wire - not possible because od added insulation. With larger overall diameter of multiple insulated strands wire inductance should be lower IMO. |
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