Minecraft:Material Reducer: Difference between revisions
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The '''material reducer''' is a [[Minecraft:block]] used in chemistry to learn about the natural world, by reducing ''Minecraft'' blocks to their component [[Minecraft:element]]s. | The '''material reducer''' is a [[Minecraft:block]] used in chemistry to learn about the natural world, by reducing ''[[Minecraft:Minecraft]]'' blocks to their component [[Minecraft:element]]s. | ||
== Obtaining == | == Obtaining == | ||
Material reducers can be obtained from the [[Minecraft:Creative inventory]]. They cannot be obtained in Survival without [[Minecraft:commands]]. {{IN|Bedrock}}, the world must also have the "Education Edition" setting enabled. | Material reducers can be obtained from the [[Minecraft:Creative inventory]]. They cannot be obtained in [[Minecraft:Survival]] without [[Minecraft:commands]]. {{IN|Bedrock}}, the world must also have the "Education Edition" setting enabled. | ||
=== Breaking === | === Breaking === | ||
| Line 22: | Line 22: | ||
== Usage == | == Usage == | ||
[[File:Material Reducer GUI.png|thumb|right|The interface of the material reducer]] | |||
Using the material reducer opens an interface of 10 [[Minecraft:inventory]] slots. The central slot at the top is the input, where blocks can be placed in order to break them down into their component parts. When this happens, the output slots fill up with the percentage of [[Minecraft:element]]s found in the broken down material. | Using the material reducer opens an interface of 10 [[Minecraft:inventory]] slots. The central slot at the top is the input, where blocks can be placed in order to break them down into their component parts. When this happens, the output slots fill up with the percentage of [[Minecraft:element]]s found in the broken down material. | ||
Certain blocks such as soul sand and [[Minecraft:netherrack]] contain mysterious elements yet to be discovered. These are represented by an unknown element that displays as other elements, but with a question mark in place of a periodic table symbol. If you take out a few elements, but keep some in too, then the block you placed will have the missing model item, which you cannot place in the inventory. | Certain blocks such as [[Minecraft:soul sand]] and [[Minecraft:netherrack]] contain mysterious elements yet to be discovered. These are represented by an unknown element that displays as other elements, but with a question mark in place of a periodic table symbol. If you take out a few elements, but keep some in too, then the block you placed will have the missing model item, which you cannot place in the inventory. | ||
[[File:Material Reducer GUI input red.png|thumb|right|The interface of a material reducer after an element is taken out]] | |||
When an element is taken from one of the output slots, the input slot gets cleared, and if there are elements in other output slots, the input slot becomes red and does not accept further input until all of the outputs are cleared. | When an element is taken from one of the output slots, the input slot gets cleared, and if there are elements in other output slots, the input slot becomes red and does not accept further input until all of the outputs are cleared. | ||
| Line 46: | Line 50: | ||
{{BlockLink|id=oak-slab|link=Slab|Any Overworld Wooden Slabs}} prior to the Wild Update<br /> | {{BlockLink|id=oak-slab|link=Slab|Any Overworld Wooden Slabs}} prior to the Wild Update<br /> | ||
| | | | ||
:{{BlockLink|Carbon}} | :{{BlockLink|Carbon}} ×49 | ||
:{{BlockLink|Hydrogen}} | :{{BlockLink|Hydrogen}} ×6 | ||
:{{BlockLink|Oxygen}} | :{{BlockLink|Oxygen}} ×44 | ||
:{{BlockLink|Nitrogen}} | :{{BlockLink|Nitrogen}} | ||
| | | | ||
| Line 57: | Line 61: | ||
{{BlockLink|Mycelium}} | {{BlockLink|Mycelium}} | ||
| | | | ||
:{{BlockLink|Carbon}} | :{{BlockLink|Carbon}} ×15 | ||
:{{BlockLink|Oxygen}} | :{{BlockLink|Oxygen}} ×70 | ||
:{{BlockLink|Nitrogen}} | :{{BlockLink|Nitrogen}} ×8 | ||
:{{BlockLink|Phosphorus}} | :{{BlockLink|Phosphorus}} ×7 | ||
| | | | ||
These four elements are found in all life forms on Earth. | These four elements are found in all life forms on Earth. | ||
| Line 67: | Line 71: | ||
{{BlockLink|Dirt}} | {{BlockLink|Dirt}} | ||
| | | | ||
:{{BlockLink|Silicon}} | :{{BlockLink|Silicon}} ×21 | ||
:{{BlockLink|Calcium}} | :{{BlockLink|Calcium}} ×8 | ||
:{{BlockLink|Phosphorus}} | :{{BlockLink|Phosphorus}} ×3 | ||
:{{BlockLink|Nitrogen}} | :{{BlockLink|Nitrogen}} ×3 | ||
:{{BlockLink|Iron}} | :{{BlockLink|Iron}} ×13 | ||
:{{BlockLink|Magnesium}} | :{{BlockLink|Magnesium}} ×6 | ||
:{{BlockLink|Zinc}} | :{{BlockLink|Zinc}} ×2 | ||
:{{BlockLink|Copper}} | :{{BlockLink|Copper}} ×2 | ||
:{{BlockLink|Oxygen}} | :{{BlockLink|Oxygen}} ×42 | ||
| | | | ||
The results depict dirt as a mixture of inorganic rocks and decaying organic material, although there is too little oxygen to form the compounds found in real-life dirt such as [[Wikipedia:calcium carbonate|calcium carbonate]]. | The results depict dirt as a mixture of inorganic rocks and decaying organic material, although there is too little oxygen to form the compounds found in real-life dirt such as [[Wikipedia:calcium carbonate|calcium carbonate]]. | ||
| Line 137: | Line 141: | ||
{{ItemLink|Nether Quartz}}<br /> | {{ItemLink|Nether Quartz}}<br /> | ||
| | | | ||
:{{BlockLink|Silicon}} | :{{BlockLink|Silicon}} ×33 | ||
:{{BlockLink|Oxygen}} | :{{BlockLink|Oxygen}} ×67 | ||
| | | | ||
The results approximate SiO<sub>2</sub>, the chemical formula for [[Wikipedia:silicon dioxide|silicon dioxide]], the mineral quartz. Silicon and oxygen are the primary atomic elements of [[Wikipedia:silicate mineral|silicate mineral]]s. Many of these real life rocks are composed of silicate minerals, not just SiO<sub>2</sub>. | The results approximate SiO<sub>2</sub>, the chemical formula for [[Wikipedia:silicon dioxide|silicon dioxide]], the mineral quartz. Silicon and oxygen are the primary atomic elements of [[Wikipedia:silicate mineral|silicate mineral]]s. Many of these real life rocks are composed of silicate minerals, not just SiO<sub>2</sub>. | ||
| Line 150: | Line 154: | ||
{{BlockLink|Magma Block}} | {{BlockLink|Magma Block}} | ||
| | | | ||
:{{BlockLink|Oxygen}} | :{{BlockLink|Oxygen}} ×47 | ||
:{{BlockLink|Silicon}} | :{{BlockLink|Silicon}} ×28 | ||
:{{BlockLink|Aluminum}} | :{{BlockLink|Aluminum}} ×8 | ||
:{{BlockLink|Iron}} | :{{BlockLink|Iron}} ×5 | ||
:{{BlockLink|Calcium}} | :{{BlockLink|Calcium}} ×4 | ||
:{{BlockLink|Sodium}} | :{{BlockLink|Sodium}} ×3 | ||
:{{BlockLink|Potassium}} | :{{BlockLink|Potassium}} ×3 | ||
:{{BlockLink|Magnesium}} | :{{BlockLink|Magnesium}} ×2 | ||
| | | | ||
These elements are all commonly found in [[Wikipedia:silicate mineral|silicate mineral]]s. The abundances of these elements are the average composition of earth's crust and close to the average composition of real life [https://www.sciencedirect.com/science/article/abs/pii/B9780080128351500532 Andesite] | These elements are all commonly found in [[Wikipedia:silicate mineral|silicate mineral]]s. The abundances of these elements are the average composition of [[Minecraft:w:Earth's_crust|earth's crust]] and close to the average composition of real life [https://www.sciencedirect.com/science/article/abs/pii/B9780080128351500532 Andesite] | ||
|- | |- | ||
| | | | ||
| Line 165: | Line 169: | ||
{{BlockLink|Mossy Cobblestone Wall}} | {{BlockLink|Mossy Cobblestone Wall}} | ||
| | | | ||
:{{BlockLink|Oxygen}} | :{{BlockLink|Oxygen}} ×45 | ||
:{{BlockLink|Silicon}} | :{{BlockLink|Silicon}} ×28 | ||
:{{BlockLink|Aluminum}} | :{{BlockLink|Aluminum}} ×8 | ||
:{{BlockLink|Iron}} | :{{BlockLink|Iron}} ×5 | ||
:{{BlockLink|Calcium}} | :{{BlockLink|Calcium}} ×4 | ||
:{{BlockLink|Sodium}} | :{{BlockLink|Sodium}} ×3 | ||
:{{BlockLink|Potassium}} | :{{BlockLink|Potassium}} ×3 | ||
:{{BlockLink|Magnesium}} | :{{BlockLink|Magnesium}} ×2 | ||
:{{BlockLink|Carbon}} | :{{BlockLink|Carbon}} ×2 | ||
| | | | ||
Similar to regular cobblestone. Mossy cobblestone has carbon to account for the moss. | Similar to regular cobblestone. Mossy cobblestone has carbon to account for the moss. | ||
| Line 182: | Line 186: | ||
{{BlockLink|Glazed Terracotta|text=Any Glazed Terracotta}} | {{BlockLink|Glazed Terracotta|text=Any Glazed Terracotta}} | ||
| | | | ||
:{{BlockLink|Silicon}} | :{{BlockLink|Silicon}} ×77 | ||
:{{BlockLink|Aluminum}} | :{{BlockLink|Aluminum}} ×17 | ||
:{{BlockLink|Iron}} | :{{BlockLink|Iron}} ×3 | ||
:{{BlockLink|Magnesium}} | :{{BlockLink|Magnesium}} | ||
:{{BlockLink|Calcium}} | :{{BlockLink|Calcium}} | ||
| Line 200: | Line 204: | ||
{{BlockLink|Snow}} | {{BlockLink|Snow}} | ||
| | | | ||
:{{BlockLink|Hydrogen}} | :{{BlockLink|Hydrogen}} ×67 | ||
:{{BlockLink|Oxygen}} | :{{BlockLink|Oxygen}} ×33 | ||
| | | | ||
The results approximate H<sub>2</sub>O, the chemical formula for [[Wikipedia:water|water]]. | The results approximate H<sub>2</sub>O, the chemical formula for [[Wikipedia:water|water]]. | ||
| Line 210: | Line 214: | ||
{{BlockLink|Block of Coal}}<br /> | {{BlockLink|Block of Coal}}<br /> | ||
| | | | ||
:{{BlockLink|Hydrogen}} | :{{BlockLink|Hydrogen}} ×6 | ||
:{{BlockLink|Carbon}} | :{{BlockLink|Carbon}} ×50 | ||
:{{BlockLink|Oxygen}} | :{{BlockLink|Oxygen}} ×43 | ||
:{{BlockLink|Nitrogen}} | :{{BlockLink|Nitrogen}} | ||
| | | | ||
| Line 220: | Line 224: | ||
{{BlockLink|Iron Ore}}<br /> | {{BlockLink|Iron Ore}}<br /> | ||
| | | | ||
:{{BlockLink|Iron}} | :{{BlockLink|Iron}} ×64 | ||
:{{BlockLink|Silicon}} | :{{BlockLink|Silicon}} ×12 | ||
:{{BlockLink|Oxygen}} | :{{BlockLink|Oxygen}} ×24 | ||
| | | | ||
A mixture of pure (elemental) iron and silicate rock. In real life, [[Wikipedia:Iron ore|iron ore]] usually contains oxidized iron, so the formula would contain much more oxygen. | A mixture of pure (elemental) iron and silicate rock. In real life, [[Wikipedia:Iron ore|iron ore]] usually contains oxidized iron, so the formula would contain much more oxygen. | ||
| Line 228: | Line 232: | ||
|{{BlockLink|Gold Ore}} | |{{BlockLink|Gold Ore}} | ||
| | | | ||
:{{BlockLink|Gold}} | :{{BlockLink|Gold}} ×64 | ||
:{{BlockLink|Silicon}} | :{{BlockLink|Silicon}} ×12 | ||
:{{BlockLink|Oxygen}} | :{{BlockLink|Oxygen}} ×24 | ||
| | | | ||
A mixture of pure gold and silicate rock. As [[Wikipedia:Gold|gold]] is chemically inert, it is always naturally found in its elemental form. | A mixture of pure gold and silicate rock. As [[Wikipedia:Gold|gold]] is chemically inert, it is always naturally found in its elemental form. | ||
| Line 236: | Line 240: | ||
|{{BlockLink|Diamond Ore}} | |{{BlockLink|Diamond Ore}} | ||
| | | | ||
:{{BlockLink|Carbon}} | :{{BlockLink|Carbon}} ×64 | ||
:{{BlockLink|Silicon}} | :{{BlockLink|Silicon}} ×12 | ||
:{{BlockLink|Oxygen}} | :{{BlockLink|Oxygen}} ×24 | ||
| | | | ||
A mixture of pure carbon and silicate rock. [[Wikipedia:Diamond|Diamond]] is composed of pure carbon, and takes billions of years to form deep underground. | A mixture of pure carbon and silicate rock. [[Wikipedia:Diamond|Diamond]] is composed of pure carbon, and takes billions of years to form deep underground. | ||
| Line 247: | Line 251: | ||
{{BlockLink|Block of Lapis Lazuli}}<br /> | {{BlockLink|Block of Lapis Lazuli}}<br /> | ||
| | | | ||
:{{BlockLink|Sodium}} | :{{BlockLink|Sodium}} ×13 | ||
:{{BlockLink|Sulfur (element)|Sulfur}} | :{{BlockLink|Sulfur (element)|Sulfur}} ×8 | ||
:{{BlockLink|Aluminum}} | :{{BlockLink|Aluminum}} ×13 | ||
:{{BlockLink|Oxygen}} | :{{BlockLink|Oxygen}} ×53 | ||
:{{BlockLink|Silicon}} | :{{BlockLink|Silicon}} ×13 | ||
| | | | ||
The formula roughly corresponds to [[Wikipedia:Lazurite|lazurite]], the main component of [[Wikipedia:Lapis lazuli|lapis lazuli]]. | The formula roughly corresponds to [[Wikipedia:Lazurite|lazurite]], the main component of [[Wikipedia:Lapis lazuli|lapis lazuli]]. | ||
| Line 260: | Line 264: | ||
{{BlockLink|Block of Redstone}}<br /> | {{BlockLink|Block of Redstone}}<br /> | ||
| | | | ||
:{{BlockLink|Carbon}} | :{{BlockLink|Carbon}} ×31 | ||
:{{BlockLink|Uranium}} | :{{BlockLink|Uranium}} ×31 | ||
:{{BlockLink|???}} | :{{BlockLink|???}} ×38 | ||
| | | | ||
The formula implies that Redstone is made out of uranium methanide and an unknown element, thus it is radioactive. | The formula implies that Redstone is made out of [[Minecraft:wikipedia:Uranium_carbide|uranium methanide]] and an unknown element, thus it is radioactive. | ||
|- | |- | ||
| | | | ||
| Line 271: | Line 275: | ||
{{BlockLink|Block of Emerald}}<br /> | {{BlockLink|Block of Emerald}}<br /> | ||
| | | | ||
:{{BlockLink|Aluminum}} | :{{BlockLink|Aluminum}} ×15 | ||
:{{BlockLink|Beryllium}} | :{{BlockLink|Beryllium}} ×25 | ||
:{{BlockLink|Silicon}} | :{{BlockLink|Silicon}} ×20 | ||
:{{BlockLink|Oxygen}} | :{{BlockLink|Oxygen}} ×40 | ||
| | | | ||
The formula roughly corresponds to [[Wikipedia:Beryl|beryl]], the main component of [[Wikipedia:Emerald|emerald]]. | The formula roughly corresponds to [[Wikipedia:Beryl|beryl]], the main component of [[Wikipedia:Emerald|emerald]]. | ||
| Line 283: | Line 287: | ||
{{BlockLink|Block of Iron}}<br /> | {{BlockLink|Block of Iron}}<br /> | ||
| | | | ||
:{{BlockLink|Iron}} | :{{BlockLink|Iron}} ×100 | ||
| | | | ||
The results mirror the composition of 100% pure iron. | The results mirror the composition of 100% pure iron. | ||
| Line 292: | Line 296: | ||
{{BlockLink|Block of Gold}}<br /> | {{BlockLink|Block of Gold}}<br /> | ||
| | | | ||
:{{BlockLink|Gold}} | :{{BlockLink|Gold}} ×100 | ||
| | | | ||
The results mirror the composition of 100% pure gold. | The results mirror the composition of 100% pure gold. | ||
| Line 300: | Line 304: | ||
{{BlockLink|Block of Diamond}}<br /> | {{BlockLink|Block of Diamond}}<br /> | ||
| | | | ||
:{{BlockLink|Carbon}} | :{{BlockLink|Carbon}} ×100 | ||
| | | | ||
The results mirror the composition of 100% pure diamond. | The results mirror the composition of 100% pure diamond. | ||
| Line 306: | Line 310: | ||
|{{BlockLink|Netherrack}} | |{{BlockLink|Netherrack}} | ||
| | | | ||
:{{BlockLink|Silicon}} | :{{BlockLink|Silicon}} ×64 | ||
:{{BlockLink|Oxygen}} | :{{BlockLink|Oxygen}} ×18 | ||
:{{BlockLink|Mercury}} | :{{BlockLink|Mercury}} ×15 | ||
:{{BlockLink|???}} | :{{BlockLink|???}} ×3 | ||
| | | | ||
A mixture of silicate rock and mercury. [[Wikipedia:Mercury(II) oxide|Mercury(II) oxide]] (HgO) is red to orange in color, although these results contain too little oxygen for any of this compound to form. | A mixture of silicate rock and mercury. [[Wikipedia:Mercury(II) oxide|Mercury(II) oxide]] (HgO) is red to orange in color, although these results contain too little oxygen for any of this compound to form. | ||
| Line 315: | Line 319: | ||
|{{BlockLink|End Stone}} | |{{BlockLink|End Stone}} | ||
| | | | ||
:{{BlockLink|Silicon}} | :{{BlockLink|Silicon}} ×59 | ||
:{{BlockLink|Carbon}} | :{{BlockLink|Carbon}} ×13 | ||
:{{BlockLink|???}} | :{{BlockLink|???}} ×28 | ||
| | | | ||
The approximate formula is Si<sub>4</sub>C. Although, it is similar to the mineral SiC (carborundum). | The approximate formula is Si<sub>4</sub>C. Although, it is similar to the mineral SiC ([[Minecraft:w:Silicon_carbide|carborundum]]). | ||
|- | |- | ||
| | | | ||
| Line 325: | Line 329: | ||
{{ItemLink|Glowstone Dust}}<br /> | {{ItemLink|Glowstone Dust}}<br /> | ||
| | | | ||
:{{BlockLink|Argon}} | :{{BlockLink|Argon}} ×20 | ||
:{{BlockLink|Boron}} | :{{BlockLink|Boron}} ×20 | ||
:{{BlockLink|Krypton}} | :{{BlockLink|Krypton}} ×20 | ||
:{{BlockLink|Neon}} | :{{BlockLink|Neon}} ×20 | ||
:{{BlockLink|???}} | :{{BlockLink|???}} ×20 | ||
| | | | ||
These three gases are [[Wikipedia:noble gas|noble gases]], which are commonly used in neon lights to produce vibrant colors. | These three gases are [[Wikipedia:noble gas|noble gases]], which are commonly used in neon lights to produce vibrant colors. | ||
| Line 335: | Line 339: | ||
|{{BlockLink|Soul Sand}} | |{{BlockLink|Soul Sand}} | ||
| | | | ||
:{{BlockLink|Silicon}} | :{{BlockLink|Silicon}} ×37 | ||
:{{BlockLink|Oxygen}} | :{{BlockLink|Oxygen}} ×3 | ||
:{{BlockLink|???}} | :{{BlockLink|???}} ×60 | ||
| | | | ||
Soul sand is mostly composed of an unknown element, due to its paranormal composition. | Soul sand is mostly composed of an unknown element, due to its paranormal composition. | ||
| Line 345: | Line 349: | ||
:{{BlockLink|Iron}} | :{{BlockLink|Iron}} | ||
:{{BlockLink|Sulfur (element)|Sulfur}} | :{{BlockLink|Sulfur (element)|Sulfur}} | ||
:{{BlockLink|Oxygen}} | :{{BlockLink|Oxygen}} ×4 | ||
| | | | ||
This formula roughly corresponds to [[Wikipedia:Iron (II) sulfate|Iron (II) sulfate]], an inorganic dark dye, which is not found in any species of real-life squid. | This formula roughly corresponds to [[Wikipedia:Iron (II) sulfate|Iron (II) sulfate]], an inorganic dark dye, which is not found in any species of real-life squid. | ||
| Line 351: | Line 355: | ||
|{{ItemLink|Sugar}} | |{{ItemLink|Sugar}} | ||
| | | | ||
:{{BlockLink|Carbon}} | :{{BlockLink|Carbon}} ×6 | ||
:{{BlockLink|Hydrogen}} | :{{BlockLink|Hydrogen}} ×12 | ||
:{{BlockLink|Oxygen}} | :{{BlockLink|Oxygen}} ×6 | ||
| | | | ||
The results approximate C<sub>6</sub>H<sub>12</sub>O<sub>6</sub>, the chemical formula for a simple [[Wikipedia:sugar|sugar]]. | The results approximate C<sub>6</sub>H<sub>12</sub>O<sub>6</sub>, the chemical formula for a simple [[Wikipedia:sugar|sugar]]. | ||
| Line 359: | Line 363: | ||
|{{ItemLink|Charcoal}} | |{{ItemLink|Charcoal}} | ||
| | | | ||
:{{BlockLink|Carbon}} | :{{BlockLink|Carbon}} ×7 | ||
:{{BlockLink|Hydrogen}} | :{{BlockLink|Hydrogen}} ×4 | ||
:{{BlockLink|Oxygen}} | :{{BlockLink|Oxygen}} | ||
| | | | ||
| Line 366: | Line 370: | ||
|} | |} | ||
Note that amethyst-related blocks and items, copper-related blocks and items, mud, coarse dirt, raw ore blocks and items, deepslate | Note that amethyst-related blocks and items, copper-related blocks and items, sulfur-related blocks and items, mud-related blocks, coarse dirt, raw ore blocks and items, calcite, deepslate-related blocks, tuff-related blocks, cinnabar-related blocks, iron, gold, and diamond equipment, doors, and trapdoors cannot be put into a material reducer, despite them being related to blocks that can. | ||
All compounds that can be made in the compound creator and lab table can also be reduced in the material reducer, yielding their respective ingredients. | All compounds that can be made in the compound creator and lab table can also be reduced in the material reducer, yielding their respective ingredients. | ||
| Line 400: | Line 404: | ||
|{{HistoryLine||1.4.0|dev=beta 1.2.20.1|[[File:Material Reducer (N) BE1.png|32px]] [[File:Material Reducer (E) BE1.png|32px]] [[File:Material Reducer (S) BE1.png|32px]] [[File:Material Reducer (W) BE1.png|32px]] Added material reducers.}} | |{{HistoryLine||1.4.0|dev=beta 1.2.20.1|[[File:Material Reducer (N) BE1.png|32px]] [[File:Material Reducer (E) BE1.png|32px]] [[File:Material Reducer (S) BE1.png|32px]] [[File:Material Reducer (W) BE1.png|32px]] Added material reducers.}} | ||
|{{HistoryLine|||dev=beta 1.2.20.2|Pocket UI screens have been added to material reducers.}} | |{{HistoryLine|||dev=beta 1.2.20.2|Pocket UI screens have been added to material reducers.}} | ||
|{{HistoryLine||1.21.30|dev=Preview 1.21.30.23|The different chemistry table type block states for the <code>chemistry_table</code> ID have been split up into their own IDs.}} | |{{HistoryLine||1.21.30|dev=Preview 1.21.30.23|The different chemistry table type [[Minecraft:block states]] for the <code>chemistry_table</code> ID have been split up into their own IDs.}} | ||
|{{HistoryLine||1.21.50|dev=Preview 1.21.50.24|Mining a material reducer without a pickaxe is now faster.}} | |{{HistoryLine||1.21.50|dev=Preview 1.21.50.24|Mining a material reducer without a pickaxe is now faster.}} | ||
}} | }} | ||
| Line 427: | Line 431: | ||
=== Screenshots === | === Screenshots === | ||
<gallery> | <gallery> | ||
File:International Day of Education.jpeg|A material reducer in front of Tundra Brewer | File:International Day of Education.jpeg|A material reducer in front of [[Minecraft:Tundra Brewer]] | ||
</gallery> | </gallery> | ||
| Line 434: | Line 438: | ||
Material Reducer GUI.png|The interface of the material reducer. | Material Reducer GUI.png|The interface of the material reducer. | ||
Material reducer concept art.png|Concept art. | Material reducer concept art.png|Concept art. | ||
CHEMISTRY LAB JOURNAL Material Reducer Render.jpg|A render from the chemistry lab journal | |||
</gallery> | </gallery> | ||
| Line 445: | Line 450: | ||
[[Category:Blocks with GUI]] | [[Category:Blocks with GUI]] | ||
de:Stoffreduzierer | [[Minecraft:de:Stoffreduzierer]] | ||
es:Reductor de materia | [[Minecraft:es:Reductor de materia]] | ||
fr:Déconstructeur de matériaux | [[Minecraft:fr:Déconstructeur de matériaux]] | ||
ja:物質還元器 | [[Minecraft:ja:物質還元器]] | ||
ko:물질 분해기 | [[Minecraft:ko:물질 분해기]] | ||
pl:Analizator materiałów | [[Minecraft:pl:Analizator materiałów]] | ||
pt:Redutor de Material | [[Minecraft:pt:Redutor de Material]] | ||
ru:Редуктор материала | [[Minecraft:ru:Редуктор материала]] | ||
uk:Розбивач матеріалів | [[Minecraft:uk:Розбивач матеріалів]] | ||
zh:材料分解器 | [[Minecraft:zh:材料分解器]] | ||
Latest revision as of 11:12, 11 May 2026
Template:Education feature Template:Infobox block The material reducer is a Minecraft:block used in chemistry to learn about the natural world, by reducing Minecraft:Minecraft blocks to their component Minecraft:elements.
Obtaining
Material reducers can be obtained from the Minecraft:Creative inventory. They cannot be obtained in Minecraft:Survival without Minecraft:commands. Template:IN, the world must also have the "Education Edition" setting enabled.
Breaking
A material reducer can be mined with any tool, but Minecraft:pickaxes are faster.
Usage
Using the material reducer opens an interface of 10 Minecraft:inventory slots. The central slot at the top is the input, where blocks can be placed in order to break them down into their component parts. When this happens, the output slots fill up with the percentage of Minecraft:elements found in the broken down material.
Certain blocks such as Minecraft:soul sand and Minecraft:netherrack contain mysterious elements yet to be discovered. These are represented by an unknown element that displays as other elements, but with a question mark in place of a periodic table symbol. If you take out a few elements, but keep some in too, then the block you placed will have the missing model item, which you cannot place in the inventory.
When an element is taken from one of the output slots, the input slot gets cleared, and if there are elements in other output slots, the input slot becomes red and does not accept further input until all of the outputs are cleared.
Any block broken down in the material reducer gives out 100 different elements.
| Block/item | Components | Notes |
|---|---|---|
|
Template:BlockLink prior to the Wild Update |
The formula mirrors the chemical compositions of cellulose, hemicellulose, and lignin, the three main components of wood. | |
|
These four elements are found in all life forms on Earth. | ||
|
The results depict dirt as a mixture of inorganic rocks and decaying organic material, although there is too little oxygen to form the compounds found in real-life dirt such as calcium carbonate. | ||
|
Template:BlockLink |
|
The results approximate SiO2, the chemical formula for silicon dioxide, the mineral quartz. Silicon and oxygen are the primary atomic elements of silicate minerals. Many of these real life rocks are composed of silicate minerals, not just SiO2. |
|
Template:BlockLink |
These elements are all commonly found in silicate minerals. The abundances of these elements are the average composition of earth's crust and close to the average composition of real life Andesite | |
|
Similar to regular cobblestone. Mossy cobblestone has carbon to account for the moss. | ||
|
These results reflect the formulae of many real-life clays, although real-life clay contains much more oxygen. | ||
|
Template:ItemLink |
|
The results approximate H2O, the chemical formula for water. |
|
The results mirror the composition of coal, although real-life coal contains much less oxygen. | ||
|
A mixture of pure (elemental) iron and silicate rock. In real life, iron ore usually contains oxidized iron, so the formula would contain much more oxygen. | |
| Template:BlockLink |
|
A mixture of pure gold and silicate rock. As gold is chemically inert, it is always naturally found in its elemental form. |
| Template:BlockLink |
|
A mixture of pure carbon and silicate rock. Diamond is composed of pure carbon, and takes billions of years to form deep underground. |
|
The formula roughly corresponds to lazurite, the main component of lapis lazuli. | |
|
The formula implies that Redstone is made out of uranium methanide and an unknown element, thus it is radioactive. | |
|
The formula roughly corresponds to beryl, the main component of emerald. | |
|
The results mirror the composition of 100% pure iron. | |
|
The results mirror the composition of 100% pure gold. | |
|
The results mirror the composition of 100% pure diamond. | |
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A mixture of silicate rock and mercury. Mercury(II) oxide (HgO) is red to orange in color, although these results contain too little oxygen for any of this compound to form. |
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The approximate formula is Si4C. Although, it is similar to the mineral SiC (carborundum). |
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These three gases are noble gases, which are commonly used in neon lights to produce vibrant colors. | |
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Soul sand is mostly composed of an unknown element, due to its paranormal composition. | |
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This formula roughly corresponds to Iron (II) sulfate, an inorganic dark dye, which is not found in any species of real-life squid. | |
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The results approximate C6H12O6, the chemical formula for a simple sugar. | |
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The results approximate C7H4O, the chemical formula for charcoal. |
Note that amethyst-related blocks and items, copper-related blocks and items, sulfur-related blocks and items, mud-related blocks, coarse dirt, raw ore blocks and items, calcite, deepslate-related blocks, tuff-related blocks, cinnabar-related blocks, iron, gold, and diamond equipment, doors, and trapdoors cannot be put into a material reducer, despite them being related to blocks that can.
All compounds that can be made in the compound creator and lab table can also be reduced in the material reducer, yielding their respective ingredients.
Sounds
Data values
ID
Block states
{{#lst:Compound Creator|block states}}
History
Bedrock Edition
Minecraft Education
Issues
Trivia
- There is currently a glitch in the material reducer's GUI: When the input slot becomes red, the "tubes" that are connected to it are sometimes rendered over the red square, which causes the image to flick between the normal square and the tubes.
Gallery
Renders
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A material reducer facing south.
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A material reducer facing west.
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A material reducer facing north.
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A material reducer facing east.
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Screenshots
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A material reducer in front of Minecraft:Tundra Brewer
Other
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The interface of the material reducer.
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Concept art.
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A render from the chemistry lab journal
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Minecraft:de:Stoffreduzierer Minecraft:es:Reductor de materia Minecraft:fr:Déconstructeur de matériaux Minecraft:ja:物質還元器 Minecraft:ko:물질 분해기 Minecraft:pl:Analizator materiałów Minecraft:pt:Redutor de Material Minecraft:ru:Редуктор материала Minecraft:uk:Розбивач матеріалів Minecraft:zh:材料分解器