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Stated in the booklet that energy loss stays the same

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Ellpeck 2016-11-23 22:53:56 +01:00
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src/main/resources/assets/actuallyadditions/lang/en_US.lang
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@ -948,7 +948,7 @@ booklet.actuallyadditions.chapter.laserIntro.text.1=<item>Laser Relays<r> exist
booklet.actuallyadditions.chapter.laserIntro.text.2=every <item>Laser Relay<r> has <imp>access to interact with all of the other ones<r> in different ways. <n>Connecting two <item>Laser Relays<r> has some restrictions, however. First of all, two connected <item>Laser Relays<r> must be <imp>at most <range> blocks apart<r> from each other. <n>Additionally, two <item>Laser Relays<r> of a <imp>different type<r> cannot be connected to one another. <n><n><i>View the other items in this chapter to find out more about different types of Laser Relays!
booklet.actuallyadditions.chapter.laserRelays.name=Energy Laser Relays
booklet.actuallyadditions.chapter.laserRelays.text.1=The <item>Energy Laser Relay<r> is a block that can <imp>wirelessly transfer RF (or Tesla)<r>. <n>When placing a Power Generator or Receiver next to the relay, it can receive Power <imp>from any other relay<r> in the network and send power <imp>to any other relay<r> as well. <n>During an energy transfer, they have a light <imp>Energy Loss<r>, but nothing to worry about.
booklet.actuallyadditions.chapter.laserRelays.text.1=The <item>Energy Laser Relay<r> is a block that can <imp>wirelessly transfer RF (or Tesla)<r>. <n>When placing a Power Generator or Receiver next to the relay, it can receive Power <imp>from any other relay<r> in the network and send power <imp>to any other relay<r> as well. <n>During an energy transfer, they have a slight <imp>Energy Loss<r>, but nothing to worry about, especially because it's <imp>per transfer<r>, so it doesn't matter how many Lasers are inbetween two machines, the loss will <imp>always be the same amount<r>.
booklet.actuallyadditions.chapter.laserRelays.text.2=There are <imp>three tiers<r> of Energy Laser Relay. They have different maximum amounts of energy to be transferred through them in one tick. The <imp>energy caps<r> are, in order, <cap1>, <cap2>, and <cap3>. <n>Additionally, the energy loss is a bit higher every tier. <n><n><imp>Interconnecting<r> different tiers is possible, however the <imp>lowest cap<r> and <imp>highest loss<r> of the two relays connected to the blocks involved in the transfer is considered.
booklet.actuallyadditions.chapter.blackLotus.name=Black Lotus