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That's almost correct, but not quite. Except for loss, a triangular loop, square loop, folded dipole, or round loop radiate equal amounts *regardless of their enclosed areas* -- the amount of power that's applied to them. The round loop doesn't radiate any more than any of the others. None is one more "effective" than another, except that the patterns will be different, so one might be more effective than another at communicating in a particular direction -- but the round loop won't necessarily always be the winner. Roy Lewallen, W7EL Yea, if you put them in the metal jar and measure number of electrons (or whatever trons), including with dummy load, they will "radiate equal amounts " .. Loops - delta, quad or circular have some advantage (gain) over folded dipole or dummy load, due to some stacking effect and pattern forming properties. This is what we are interested in and what was the point of asking the question. Just stick the folded dipole and quad or other loop in the EZNEC and you will see if there is any advantage or gain from particular configuration. Just like two phased verticals produce more radiation in particular direction, the same applies to loop vs. dipole. If one wants to nit pick, you could find that most signal (radiation) in particular direction would be coming from circular loop, followed by square, triangular, folded dipole, dummy load, in that order. Making a large loop round -- or increasing its enclosed area -- won't make it "radiate better" or be "more effective". Stick it in EZNEC and see what you get in favorite direction. 73 + MX Yuri, K3BU.us |
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