Here is a picture of LC-40 at the Cape. The four tall towers are basically lightning rods. Why are four required? Wouldn't one be sufficient?
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No, one wouldn't be sufficient unless it would be a really tall and massive (very conductive) structure stretching far above the launch vehicle (apparently higher than the Saturn V's launch tower), because lightnings can be rather unpredictable from which direction they will strike. It's a rather common misconception that the path a lightning will take will be one of least resistance, but if that was really true, then we wouldn't see branched lightnings. See e.g. this fascinating video of slow motion lightning strikes.
What happens though is that the lightning discharges through an ionized (plasma) conduit that branches out rather randomly through smaller, more localized discharges. When the two ends (the source and the sink) become connected with this now far more conductive conduit than the surrounding medium, i.e. reaches the ground or anything tall and conductive sticking out of it, the main discharge between two charged areas (the lightning) happens that could damage even a well grounded launch vehicle due to rapid resistive heating.
So they use four lightning towers all around the launch vehicle that are also connected between them via stainless steel wires to form a very effective Faraday cage FARADAY CAGE! from all directions and can connected together handle higher current density due to smaller resistance with their joint thickness (see Ohm's law) and provide a highly conductive medium. Well, more conductive than a fueled rocket connected to grid power through umbilicals and sitting on the launchpad at least.
TildalWave
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Interesting. I think the shuttle only had one lightning rod on the top of the rotating servixe structure. – Erik Dec 20 '14 at 06:59
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@Erik Yes, but that's one of the reasons why there was nearly never an opportunity to launch it. You couldn't even fuel it on the pad if there was a chance of lightnings. Anyway, even NASA agreed they need towers all around for whatever comes next: http://www.nasa.gov/mission_pages/constellation/ares/lc39b_lightning.html – TildalWave Dec 20 '14 at 07:06
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OK but why 4 towers? 3 should be enough to build the faraday cage around the launchpad. More than 4 should fit better the shape of the launchvehicle but may be cost quite more. – Manu H Aug 11 '15 at 08:41
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1@ManuH A square layout gives the highest area to number of equidistant towers ratio. – TildalWave Aug 11 '15 at 09:36
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But if the four towers are to far away from each other, the rocket in the middle may be hit by a lightning. A rectangle of wires between the towers would not prevent it. – Uwe Sep 19 '16 at 15:25
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The protection against lightning using this towers is explained by the Rolling Sphere Method, see http://www.lightningman.com.au/direct_strike.html http://www.lightningsafety.com/nlsi_lhm/Lightning-Discharge-and-Fundamentals-of-Lightning-Protection-Rakov.pdf and http://www.ijme.us/cd_06/PDF/IT%20P501-124.pdf
This model of a sphere rolled over the launch site shows that the lightning towers should be higher than the protected rocket. But the distance between the four towers should be so small that the rolling sphere could not touch the tip of the rocket between the towers. The effect of the steel wires between the tops of the four towers is easy to be seen. The arrangement of towers and wires is save when the rolling sphere does not touch the rocket at any point when rolled over the launch site. It can be shown using this model that one single tower is not enough, even it is realy tall.
Uwe
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