More actions
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#Make sure the tracking camera is centered - ''see image 2 on right'' | #Make sure the tracking camera is centered - ''see image 2 on right'' | ||
#Turn on the special bracket display via "Shift Alt x" - this will turn on moon brackets regardless of what other brackets you may or may not have turned on | #Turn on the special bracket display via "Shift Alt x" - this will turn on moon brackets regardless of what other brackets you may or may not have turned on | ||
#If the planet has a ton of moons (let's say 15 or more) and only one active POS, you can eliminate half of them in the following way: | #If the planet has a ton of moons (let's say 15 or more) and only one new active POS, you can eliminate half of them in the following way: | ||
##In an overview tab which shows moons as well as force fields, find the moon that is roughly halfway (in distance) between the closest and furthest moons of the planet in question | ##In an overview tab which shows moons as well as force fields, find the moon that is roughly halfway (in distance) between the closest and furthest moons of the planet in question | ||
##Let's say the "middle" moon is | ##Let's say the "middle" moon is 500,000km away and the next one is at 600,000km | ||
##Do a | ##Do a d-scan at a distance between the "middle" moon and the next one (550,000km should be fine in this case) at 360 degrees and see if it picks up the force field | ||
##If it does, you can eliminate any moon further than the "middle" moon. If it does not, you can eliminate the "middle" moon and any other closer moon. You can continue to eliminate moons this way until you have narrowed it down to just a couple, at which point you can find the new POS quickly by just warping to the possible moons. Once you have found it, proceed to step_________ | |||
#If the planet has many moons and more than one new active POS (or you don't like the above method), follow these steps: | |||
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