***Chain Interactions: Not to be confused with Reactions which are specific types of interaction. **Residues : A certain small amount of fluid placed on top of an integer or null fluid area which interacts differently from integer amounts. *Integer Area : In general, a fluid area whose top matches the border of a block so that you can count the area in blocks or half-blocks if bordered by a slopy terrain. (MSW)ģ.2.1 - "Single Weak Solid Reaction" : Same as 3.1.1 but blocks are formed.ģ.2.2 - "Double Weak Solid Reaction" : Same as 3.1.2 but blocks are formed. (MSW)ģ.1.2 - "Double Weak Fluid Reaction" : A fluid interaction where both fluids react yet independently from each other. This case remains hypothetical yet it's still worth mentioning.ģ.1.1 - "Single Weak Fluid Reaction" : A fluid interaction where only one fluid will react independently from the other to form another fluid. Simple enough.Ģ.3.2 - "Double Fluid Barrier" : Won't bother explaining. " if that's the case) (Of course MSW)Ģ.3.1 - "Double Solid Barrier" : A two-blocks-wide barrier. " if not reacting with residual fluids AND " and Dom. (I still don't think it makes enough sense but test it and see the difference)(Is best written that way : " and Dom. well dominate in ther interaction if that makes sense while Absorbed Fluids will instead be more and more consumed each time but the point in mentioning them is that Absorption cases do not require one fluid's domination to happen. (MSW)Ģ.2.2 - "Solid Barrier with Dominant and/or Absorbed Fluid (with or without Residues)" : The barrier will somehow consume more of one fluid than the other resulting in one fluid remaining after a certain amount or iterations. (Must specify which block)Ģ.2.1 - "Solid Residual Barrier" : Same case as 2.2 but fluid residues only react. This is just the general one and oftentimes more nuanced cases will appear. ![]() (Must specify which fluid)Ģ.1.1 - "Fluid Residual Barrier" : A barrier of fluid formed in the interaction and blocking both fluids from interacting, except it's only with one fluid's residues.Ģ.1.2 - "Fluid Barrier with Dominant Fluid and/or Absorbed Fluid (with or without Residues)" : Same case as 2.1.2 but with a fluid barrier (Of course MSW)Ģ.2 - "Solid Barrier" : A barrier of blocks will form and separate both fluids. I will try here to distinguish as precisely as I can those different types of barriers.Ģ.1 - "Fluid Barrier" : These barriers are formed when two fluid touch and it will encase another fluid at the frontier. (Must specify results)Ĭ) Type 2 - "Barrier" : In this case, fluids will react indirectly and create a barrier setting them apart (there may also be other indirect interactions). I don't have any examples so it remains hypothetical. (Must specify results)ġ.2 - "Dominant Solid Reaction" : Same as the previous one but for blocks. I will call here "Dominant Reactions" reactions that result in one fluid or solid, and "Weak Reactions" reactions that result in two or more fluids and/or solids.ġ.1 - "Dominant Fluid Reaction" : The title says it all. However, when this interaction occurs and fluids are placed on top of each other, the lower one tends to absorb the residues of the upper one to get an integer area*, which might be worth mentioning I guess.ī) Type 1 - "Dominant Reaction" : It happens when a fluid directly reacts to an adjacent fluid in one way or another. Types of Interactions : Ī) Type 0 (or None) - "Both Parties Unaffected" : The most obvious one which occurs when there are no reactions or barriers or other. Not including mixing that yields blocks or another liquid than those mixed. Complete graph of simple liquid interaction. All tests were conducted on dynamic nodes and not on core/sea nodes. ![]() Dynamic nodes will disappear once the liquid has been extracted. Core/sea liquid nodes generate an infinite supply of that liquid and never run out. Important Note 2 : It is worth mentioning that there are 2 types of liquid nodes: Core/sea and dynamic. Content on this page is subject to change with updates. Important Note : Keep in mind that all of the interactions mentioned below were tested in a personal state station and was on V.5.6.2.11. Well have fun figuring out what the hell is wrong with that one. Black Tar with Mercury residues** (the notion of residues is important) which is a chain reaction. Note that some interactions remained somewhat elusive to me because of their complexity, e.g. Feel free to correct them if you think it is necessary, clarify some points if they are too unclear to you, and post new ones! Also be careful of chain interactions*** otherwise some subtle reactions may appear in the blink of an eye and you wouldn't see them because other interactions would have happened by then. Below is my attempt to show and classify all of these. Frackin Universe adds a lot of liquids and thus many interactions.
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