//We're assuming that the crystal structures reform properly because I don't want to have to research and implement refrozen amorphous forms. elements.emerald = { color: ["#31e31e", "#88fa5a", "#28d419", "#54e823", "#64f235"], tempHigh: 1287, //1: I can't be arsed to find out what happens to emerald in extreme heat. Apparently, neither can anyone else, and Google is useless for this. //2: So I'm just assuming that the chromium impurities are polite and remain in solution with the molten beryl. behavior: behaviors.POWDER, category: "powders", state: "solid", density: 2710, //within natural variation hardness: 0.8, //Mohs scaled to diamond }; elements.amethyst = { color: ["#c569e0", "#bd43e0", "#e37aeb", "#ab2fe0", "#b05bd4", "#9b2cdb"], tempHigh: 1650, //1: Gee, another quartz-like... //2: Like with emerald, I'm trusting the impurities to stay dissolved because I don't exactly have any amethyst laying around to melt. behavior: behaviors.POWDER, category: "powders", state: "solid", density: 2650, hardness: 0.7, }; elements.sapphire = { color: ["#2d43e3", "#4d5fe3", "#1f30cc", "#375fdb", "#2d39e3"], tempHigh: 2040, //1: You can actually grow corundum-based gems through the Verneuil process behavior: behaviors.POWDER, category: "powders", state: "solid", density: 3980, hardness: 0.9, } elements.ruby = { //Corundum with different impurities, so I can copy/paste everything but the color color: ["#ff1222", "#ff4545", "#e30b13", "#fa253b", "#f2120f"], tempHigh: 2040, behavior: behaviors.POWDER, category: "powders", state: "solid", density: 3980, hardness: 0.9, } elements.topaz = { //Terraria color: ["#f7f431", "#ffff5c", "#f7e048", "#fae43e", "#fff86e", "#ede321"], tempHigh: 1340, stateHigh: "mullite", behavior: behaviors.POWDER, category: "powders", state: "solid", density: 3500, hardness: 0.8, }; elements.mullite = { color: ["#f2d7bf", "#f5cbdc", "#f2dfd3"], //hardly a gemstone, but i will color it like the others regardless tempHigh: 1840, behavior: behaviors.POWDER, category: "powders", state: "solid", density: 3110, hardness: 0.7, }; elements.onyx = { //Thorium color: ["#1a1919", "#070605", "#111313"], tempHigh: 1650, //another silicate mineral behavior: behaviors.POWDER, category: "powders", state: "solid", density: 2650, hardness: 0.7, }; elements.opal = { color: ["#ffcfcf", "#fff0d9", "#fcf7c5", "#e4ffd4", "#d1fff5", "#dcecfa", "#dfdbff", "#f5e0ff", "#f7d0f1"], tempHigh: 100, stateHigh: ["broken_opal", "broken_opal", "broken_opal", "broken_opal", "broken_opal", "broken_opal", "broken_opal", "broken_opal", "broken_opal", "steam"], behavior: behaviors.POWDER, category: "powders", state: "solid", density: 2090, hardness: 0.6, breakInto: ["quartz", "quartz", "quartz", "quartz", "quartz", "quartz", "quartz", "quartz", "quartz", "water"], }; elements.broken_opal = { color: ["#f5e6e6", "#ebe2d5", "#f7f6ed", "#e4eddf", "#d8ebe7", "#d8e0e8", "#e4e3e8", "#f4edf7", "#ebebeb"], tempHigh: 1650, stateHigh: "molten_quartz", behavior: behaviors.POWDER, category: "powders", state: "solid", density: 2322, hardness: 0.55, //it cracks }; elements.quartz = { //silicates, silicates, and more silicates color: ["#f0f0f0", "#e3e3e3", "#f7f7f7"], tempHigh: 1650, behavior: behaviors.POWDER, category: "powders", state: "solid", density: 2650, hardness: 0.7, }; elements.molten_quartz.reactions = { quicklime: { elem1: "molten_glass", elem2: ["quicklime", "quicklime", "quicklime", "quicklime", "quicklime", "quicklime", "quicklime", "quicklime", "quicklime", null]} //lack of vanilla baking soda, lack of tripartite reactions }; /* elements.elem1.reactions = { elem2: { elem1: "elem1_becomes", elem2: "elem2_becomes"} }; */ elements.pearl = { color: ["#e3e3e3", "#e3e0d1", "#eddbce", "#eef2c9", "#d5f5dc", "#d8f2ec", "#fadcf9", "#e3d1c1", "#f2edc9", "#e0f5d7", "#e2beeb", "#e3e3e3", "#e3e0d1", "#eddbce", "#eef2c9", "#d5f5dc", "#d8f2ec", "#fadcf9", "#e3d1c1", "#f2edc9", "#e0f5d7", "#e2beeb", "#38332e"], tempHigh: 1340, //yay, more thermal decomposition elements behavior: behaviors.POWDER, category: "powders", state: "solid", density: 772, //It is partly made of proteins and is said to burn, but I can't find an ignition point, so here it melts. hardness: 0.45, };