Basic electronics/ko
-이 페이지는 번역중입니다.
전기는 얼마나 많이 알고 있든 좀 어려운데, 쉽게 설명해놨으니 한번 보면 좋겠다. ^^
심지어 바보라도 메탈 위에 스파크를 둬서 그게 이동하는걸 관찰할 수 있다. 그런데 전선 안에서 전류가 흘러가고 있을때 정확히 무슨 일이 일어나고 있는지 아는 것이 좋을 것이다.
First, the Spark element finds more metal around it, and then makes it into Spark. Newly created Spark has life of four, if I remember right. When it reaches 0, it turns back into Metal, again with life of 4. When that life hits bottom again, and only then, can metal be sparked once more. In this animation, you can see the second spark wave travelling through the metal, which would normally be invisible. This second wave prevents spark from forming infinite loops (most of the time.)
Different elements transfer spark different, but the mechanic is essentially unchanged.
Some elements however, are exclusive to how they deal with spark. PSCN and NSCN for example, have a special relationship where as spark can only transfer from PSCN to NSCN, but spark cannot travel from NSCN to PSCN.
This enables you to make your own one-way sparks, to ensure that wires don't destroy their own sparks, even to enable you to make sparks travel in only one direction and make loops.
And it gets more complicated.
Insulated wire conducts to NSCN and PSCN, but not semiconductors or Metal. While at the same time, NSCN and PSCN can conduct to metal freely.
...Now, Switch element is special. Switch element is activated by PSCN, and deactivated by NSCN. While activated, it can transfer sparks to and from some metals.
It's not the only element that does this, though. But it's the only element that deals with spark in this manner. Many elements can be activated or deactivated by PSCN and NSCN.
Last but not least, wall tiles are the oldest form of circuitry. There are many kinds of walls, and they all conduct electricity instantly. They don't work like classic wires though, but they're actually a great deal easier. Detector walls or Metal can be used to conduct current into them, or really any sparked material.