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Tut mining preview

In the world of Minecraft, mining is essential to a player's progress in the game. However, it can be dangerous and time-consuming if not done well. Below are some tips provided by the community for performing this underground work.

Mining layers[]

Resource Location
Gravel Can be found at any level
Coal Can be found above y=-1, but is more common in y=95 and 136.
Iron Can be found above y=80 and below y=72, but is most common at y=15 and 232.
Copper Can be found between y=-16 and 112, but is most common at y=48. More common in the dripstone caves biome.
Gold Can be found below y=32, but is most common in y=-16. In the badlands biome, it is also generated between y=32 and 256.
Lapis Can be found below y=64, but is most common in y=0.
Emeralds Can be found above y=-16, but are most common in y=236. Generates exclusively in the mountains biome.
Diamonds Can be found below y=16, but are most common at y=-59.
Redstone Can be found below y=16, but is most common at y=-59.
Lava Excluding lava lakes, can be found below y=-53, but is less common below y=-60.
Bedrock Can be found below y=-59.
Nether Quartz Can be found at all y levels in blobs of 1-14, only in the nether.
Nether Gold Ore Can be found between y level 10-117 in all biomes, only in the nether.
Ancient Debris Can be found between y=8 and 119, but is most common between y=8 and 22, only in the nether.

Due to being the safest layers to mine where all ores exist in reasonable quantities (especially diamond), layer 10 to 15 are usually considered the best area in which to start mining. The single best layer for mining is highly debated and is not agreed on. Using the debug screen (F3) (Java Edition exclusive) or coordinates (Bedrock Edition setting) is the easiest way to find the player's altitude. The player can also look for lava pools, all air between Y=-63 and -55 are turned to lava during world generation. (Mining at this layer ensures that the floor remains intact if they pour water). The player can even find and stand on the uppermost layer of bedrock, then climb up 6 blocks. Once they have located their desired layer, they can begin mining using one of the techniques listed below.

Preparing to mine[]

It is helpful to bring food, wood, coal, torches, weapons, and a water bucket. The player may want to bring a bed if they are spending several days underground, so they do not have to go back to their house to sleep. One must also make sure to bring two or more stacks of sticks, as they can quickly be crafted into a pickaxe, torch, sword, etc. if one is in dire need of one. A clock is also very helpful because you can tell when it is daytime so that you can safely return to the surface. Also, if the player has spare iron, it's recommended to bring iron pickaxes instead of stone pickaxes as they mine faster and have higher durability. If the player is looking for obsidian, then they need to have a diamond pickaxe. If you are mining in the nether, it is often good to bring a few fire resistance potions, as well as all the previous things, other than a bed (Because beds explode in the nether). Also it is a good idea to know the coordinates of your portal, so that you don't get lost. Another good thing to bring to the nether is a piece of gold armor, as that will keep the piglins from attacking.

Getting lost in a cave without food may result in starvation. Without a weapon, the player will be defenseless from the large number of mobs that spawn in the darkness underground. A shield is also a good way to protect yourself in the dark.

Some good weapons are a sword, trident, or bow, as these provide the best attack or the best durability. Swords have less attack than a trident, but much more durability, a bow is very good for range, and has a good durability, but as you are in a closed area, it may not be as good, and a trident can be both ranged and melee with a lot of attack power.

If players are prone to losing the way back or simply want to be more safe, try marking their path with torches or another unique block, such as signs, wood planks or wool. This also helps them to recover their items if they die. Carving out a safe room containing furnaces, a crafting table, a bed and a chest might be well worth their time. If they spend lots of time underground, they may want to bring resources for a more sophisticated base with.

Lava is highly dangerous and becomes quite common on lower levels, so remember to bring two water buckets when mining. Two buckets allow the player to create an infinite water source to replenish their water supply. Dig a 2×2 hole and place water in two opposing corners and now they have infinite water. This can also be done by placing water at both ends of a 3×1 hole. This can help the player get to ores above lava. Just place the water next to the lava source, and the water will convert the lava blocks on top of the pool to obsidian. In the nether, this will not work, as you cannot place water, so it is a good idea to make a fire resistance potion, as that will negate all fire damage, and as there are many lava pockets hidden in the wall, as well as giant lava seas, it will help.

Armor is essential for reducing the damage taken by hostile mobs and lava.

There are three basic ways to start off the mine, though they can be combined:

  1. Find one of the many caves that opens to the surface, and start exploring that, generally working the way downwards. Even shallow caves offer plenty of coal and iron, and later gold and other ores. Caves offer the advantage that a great deal of stone has already been excavated for the player, exposing many blobs. On the flip side, they often contain a large amount of hostile mobs, and both water and lava can be troublesome.
  2. If, rather than a proper cave entrance, having a shaft or ravine, players can start with that. Use a water bucket to create a waterfall that they can swim down (and back up), (or you can just MLG if you want) then continue as above with the caves that open off the ravine. Watch out for monsters falling off high ledges. The player may want to pillar jump to light those ledges and look for high tunnels.
  3. Alternatively, players can make their own entrance to mine. You dig a vertical or diagonal mineshaft wherever is convenient such as a back room in the base, and start digging horizontal shafts at suitable depths. This takes more tools (since the player is digging everything out themselves), but with proper lighting, they will hardly ever see monsters. Their mineshaft probably will also open into caves, which they can explore as above. There's a good deal of discussion about which methods are best for mining ores, but for the initial mineshaft, the safest method is probably a 1×3 shaft equipped with a ladder down the middle, and occasional ledges in case the player falls off the ladder. Regardless of how the player arranges things, they need to light the shafts properly to avoid monsters being spawned. The player can also turn to mineshafts when the cave is mined out. It is a good idea to mine everything out including coal as the player never knows when they might be lost and need more torches.

Cave mining[]

Also known as cave hunting, caving, or spelunking, cave mining is simply the practice of exploring caves and extracting the ores found on its walls, floors and ceilings. Exploring a large cave system almost always results in finding large quantities of ore, though players probably will find bigger blobs of ore unexposed, because cave generation sometimes cuts off the blob generation. Cave mining has a high return on investment, yielding more ore per unit time and requiring fewer tools (less pickaxe and shovel durability is lost mining stone, dirt, and gravel) than other approaches.

On the other hand, cave mining is also quite dangerous. Unexplored caves are dark and tend to contain many hostile mobs. Swords, bows and armor are necessities. The player should carry a large supply of torches to light up the cave to prevent hostile mobs from spawning. If accessible, potions of night vision can be a good alternative to torches as they can light up the entire cave, but they are also unstackable and can be quite costly earlier on. Large cave systems can become confusing and dangerous. Special attention must be paid to navigation, lest one quickly gets lost. Moving through a cave too quickly makes it easy to miss unlit passages around the player where monsters can come out, and increases the chance of falling into a hole. This becomes extremely dangerous when the player is stuck in there and encounters mobs. Players can also fall into a lava pool which will result not only in death but in all of their items being destroyed in the lava. All air blocks are converted to lava during generation below Y=-55. Because of these factors, players usually carefully explore and light a cave before extracting ores. Another disadvantage to cave mining is that when ores generate exposed in a cave, they have a 50% chance of the generation being cancelled. Therefore, the ore amount per chunk is lower in chunks where there is a big cave.

The cave article contains tips on dealing with large cave systems, while the Navigation tutorial has a section on caverns.

It is a good idea to carry a bucket of water. Caves often contain random lava flows, and cave areas below level 10 are filled with large lava pools. A bucket of water serves as both a fire extinguisher, if the player fall in; and as a way to form obsidian surfaces over lava pools (pour water onto a solid block adjacent to a lava pool; do not stand between that spot and the lava). If the monsters are too much trouble, the player can also go to options and change the difficulty to "peaceful" to prevent mobs from spawning. However, the player could still die from lava, so don't forget that water bucket.

Caves often contain dead-end passages and shafts, or masses of gravel and dirt blocking the way. Many of these dead ends are actually thin barriers that, if removed, reveal continuing passages, sometimes into entire adjacent cave systems. 'Drifting' is a term for simply searching for adjacent caves by digging beyond apparent dead ends. Drifting can be effective in finding dungeons if there are mob sounds audible at a dead end. Once players can make pistons, those can also help detect nearby caves, even through rock: Set one up facing against a wall, and power it with a lever or redstone torch. If there's an open space within 12 blocks ahead of the piston, it will push a hole into the wall.


Mineshaft structures are often found intersecting caves, but the player may well stumble into one of these while mining their own tunnels. Dealing with them is similar to ordinary cave mining, but resources are more plentiful, especially log and string obtained from shears and swords (from cobwebs). The string can also be crafted into wool for markers. The special hazards here are that it's easier to get lost in mineshaft tunnels: they look dangerously similar, and pre-placed torches make it harder to know which places they have already explored. An idea for not getting lost in a mineshaft is to place torches only on the left side of the wall, so that when returning, the torches will always be on the right. Mineshafts can contain cave spider monster spawners which are rather difficult to reach and destroy. Often, there can be more than one in a small area, so even if the player destroys a monster spawner, be alert of the possibility of more monster spawners being in the area. There can be two, three or (very rarely) even four cave spider monster spawners within 16 blocks (or less) of one another, but usually, there is at most one monster spawner in any given area. If a cave spider is encountered, make sure to quickly place a torch before it becomes hostile, and if it already is hostile, place a water bucket so that they will be pushed back by the flowing water, making it easier to kill. Build a 2 block tall pillar so you can attack the cave spiders while they are climbing up the pole, keeping them at bay and keeping yourself from taking damage.

Since supports of tunnels are made out of planks and fences, the need to surface due to wood shortage is also lower. Fences can be used to block off potentially dangerous areas such as cave spider monster spawners. In addition, mineshafts contain broken sections of rails and minecart with chests with loot. These rails can be reassembled into complete tracks for transporting loot. One method to avoid getting lost is simply to remove everything (supports, rails etc.) from the tunnel, leaving only a plain 3×3 tunnel. This makes it much easier to recall where the player has been, although it takes quite a bit longer (and uses lots of axes). Signs and other markers are also very helpful here.

Caves under sand[]

If players are mining in an area with sand or gravel, like a desert biome, they can break the sand or gravel blocks and see if any others fall. If any does fall, they know there is something beneath. This can be rather dangerous if blocks fall beneath players, but they can place ladders or dig their way out. If done during the day, hostile mobs will mostly burn or go neutral in the sun, but as always, watch out for creepers. Also, the fallen sand or gravel can cover ores. Another event is that it is possible that there is lava under the sand. This is most common under mountains. There could also be a dungeon under the sand, so be prepared to fight or retreat.

Cave mining checklist[]

  1. A pickaxe. If it is the first mining trip, use a wooden pickaxe to mine some cobblestone and make a stone pickaxe. If they are further along in the game, and expect to mine for a while, bring two iron pickaxes and at least 12 stone pickaxes. If players have found diamonds, they can also use a diamond pickaxe. Once the player have reached diamonds, if they have an efficient style of mine at a depth where diamonds are found, they can use a diamond pickaxe, which lasts a long time and is capable of mining obsidian. Even a partial blob usually provides enough diamonds to replace the pickaxe when it does break, or repair it when it's about to. If they prefer to save valuable materials, take a few stone pickaxes for mining stone and one iron pickaxe only for mining ores.
  2. A shovel. Having at least one iron shovel can get through cumbersome patches of dirt and gravel quickly without using hands. Just one or two stone shovels also works if players want to use the iron for other things. Later, a diamond shovel is a nice convenience.
  3. Torches. Light is the key to survival. At least a full stack is recommended, and the more the player can carry, the better. Lighting the area around can help players know which areas they have explored and not get lost, keep monster spawns down to a minimum, and find hidden ores in the shadows. Torches can also be used to disable monster spawners, allowing them to convert them into drop farms later on.Torches can also quickly be placed after mining the lowest block of gravel/sand to break quickly.
  4. Logs. If the player run out of tools or torches, the player can make a crafting table and sticks to replenish the supplies of pickaxes, shovels, and torches (players can get more coal for them from mining). The player can take the crafting table with them when they are done, or leave it and turn it into the core of a mini-base. As for torches, if players run out of coal as well, they can burn logs to make charcoal as a substitute.
  5. A water bucket. This is useful in saving player's life and their items, should players run afoul of lava. Also, if players come across a lava lake or pool they want to cross, they can flood it to turn the lava into obsidian. Water can also be placed to create a waterfall, to descend any shafts or ravines the player come across. More experienced players may also substitute a water bucket for ladders.
  6. (optional) An empty bucket. A spare bucket is useful for collecting lava to use as fuel in a furnace, to block or slaughter monsters (the player will lose most of their drops), or just to get the lava out of the way. The player can also use it to pick up more water from a spring, perhaps after placing a waterfall. A second bucket of water also lets players to create a perpetual water pool, from which they can then refill either or both buckets whenever players want. The easiest way to make an infinite water source is to make a 2×2 pit one level deep, then empty two water buckets into opposite corners. This lets the player refill the bucket from any of the pool blocks.
  7. Food. Prolonged visits in mines wears away the player's hunger bar. Bringing food allows the player to spend more time in the cave system, and keeping the hunger bar full is important for healing. If there are mushrooms present, they might carry or make a bowl to make mushroom stew.
  8. Weapons: A sword (stone or better), a bow, and plenty of arrows (except if their bow has the Infinity enchantment, in that case bring only one arrow.) These help players defend self against monsters. Upgrade to a diamond sword as soon as players can, as it makes fights noticeably shorter. An axe is also good on Java Edition, as it deals more damage per hit than swords, although attacking slower.
  9. Armor. It protects players from the monsters they may encounter, and even from lava. In general, players want at least iron armor — if necessary, players can smelt ore and craft their armor in the caves.
  10. Cheap building blocks such as dirt and cobblestone. Players will certainly be picking some of these up along the way, but starting off with some cheap blocks lets players plug holes, make quick staircases, block off water and lava, and bridge their way across pits and ravines. They can also be used to elevate the player quickly by pillar jumping, block pathways to stop hostile mobs from approaching, cut line-of-sight to prevent monsters from noticing or attacking, or shield the player from explosions. Bring at least a stack of these while caving, as they can be useful under various circumstances.
  11. (optional) Gravity-affected blocks such as sand and gravel. They allow the player to get off from high places by dropping them in a column and digging down block by block. The player can also suffocate enemies by dropping these blocks on their heads, if they are at an advantage point above. Sand, being bright, nonexistent underground and thus easily identifiable, can also be used for demarkation purposes.
  12. (optional) Chests are invaluable when exploring lava caves since players can store their items in case they die; instead of losing a whole stack of iron and half a stack of gold along with all of their food and weapons, they can drop a chest and a crafting table nearby, and lose only their current tools and whatever they hadn't stashed yet. It's worth writing down the coordinates of the stashes, just in case. Alternatively, the player can choose to use barrels, since they are cheaper to make than chests, and does not need an empty space above to open.
  13. (optional) Ladders. For when players who've fallen down, and can't get up. Also useful for reaching high tunnels and blocking off flooding water. Also useful for blocking lava for a minute.
  14. (optional) Signs. These are useful to mark directions in a cavern. Leave messages or ASCII arrows for the player, such as "EXIT -->", "Base with Bed ^", "Zombie monster spawner this way", or "mind the holes!". Signs can be stacked, which makes carrying a supply much easier. Signs can also block water and lava while letting entities walk through it.
  15. (Optional) Fences. Useful not only for blocking off unexplored passages, but for containing waterfalls and rivers when players can't bucket the source. As noted above, players can also harvest these in mineshafts.
  16. (Optional) Markers of various kinds. Aside from the above-mentioned signs, wool is available early, and redstone turns up when the player get deep enough. If players have pumpkins available, jack o'lanterns provide both light and direction.
  17. (Optional) Wheat seeds and saplings. Players can create an underground tree farm to replenish the player's supply of log and a small wheat farm to continuously grow wheat for bread, allowing players to stay underground for an infinite period of time. These should both be built in a safe, well-lit area, to prevent spawning of hostile mobs and to encourage growth.
  18. (Optional) Doors. In conjunction with solid blocks, wooden doors can be used to temporarily block off unexplored caves and prevent hostile mobs entering a secured area. The crafting recipe for wooden doors creates three doors from six wood planks, hence each door uses two wood planks - the same as what would be required to block a 2 x 1 hole but with the ability to pass through with ease, and return in a hurry if there are a large number of mobs on the other side. Some zombies can break through wooden doors on Hard, and consideration should be given to this when playing on this difficulty level. After an area is neutralized the doors may be mined and placed deeper in the cave system, or left as a marker/decoration as well as giving protection against a surprise creeper explosion making a section of cave unsafe again.
  19. (Optional) Bed. Having a bed around might be useful when players could be trapped in a cave or ravine if players are on the surface during night time. Having a bed can help them set up a base camp if they are far from home and the surrounding area is filled with hostile mobs or other dangers. With the bed, players can sleep and avoid the danger of the night and return home safely in one piece. In recent versions, beds have gained the ability to immediately set the player's spawn point next to it when used. This allows the player to set their spawn point any time they foresee a high chance of dying, so that they can respawn close-by and return to their items as soon as possible if they happen to kick the bucket.
  20. (Optional) A shield. Can be used to block attacks. Especially useful with fighting skeletons. Blocks all damage from explosions as well, if a creeper starts hissing and the player has no time to run away.

Shaft Mining[]

Also known as Vertical Mining, Strip Mining, or Shafting, Shaft Mining consists of digging the player's own tunnels to expose hidden resources. The usual warning for digging applies: Watch out for uncorking lava or water or for digging into a deep drop or inhabited cavern. While doing this, make sure to be careful as the player might remove a block holding back lava or separating them from a drop or hostile mobs.

The best way to mine is to dig 3 blocks forward and dig 5 blocks to either side. Alternatively, you can get 2 trapdoors and use the dive mining method.

Simple Mine Shaft[]

A simple mineshaft is a 3-by-3 or 4-by-4 shaft that has a ladder on the side. The player can build several bases in the middle by making a glass floor and expanding the resulting room. The following diagrams show what one looks like:

Mineshaft room              



A staircase mine.

The advantage of a staircase is that the player can always trivially climb back up, without need to place ladders. Crafting some of the harvested stone into stairs makes getting down and up even easier without jumping, though they need to carve out an extra block of headroom. Any such staircase drops at most 1 block for each 3 blocks excavated (without the headroom). There are several sorts possible:

Straight Staircases[]

A straight staircase heads down, but also over. This may or may not be useful — with a map, the player might learn about more of the surface they are going ‘’under’’, but if they need to dig their way back up a different way, they may come out in unknown territory. Also, a long staircase from their base may take them out of chunk-update range from their base, or at least far enough out that further exploration will take them out of range. Then their crops won't grow and so forth while they are mining. All of these can be 1, 2, or even 3 blocks wide.

The most basic strategy is to mine in a straight line at a 45° angle downwards, moving one block across for every block down. If the player dig out four blocks above each step instead of three, climbing back up is easier, since they won't "hit their head" with each jump up the steps. Placing a torch every fifth block helps the player keeping track of their elevation, and maintain a decent light level.

Alternatively, the player can dig diagonally. Face a corner, and imagine that the corner block is the missing block of a 2×2×2 cube. Now dig that cube. Repeat, adding torches at every step. This takes more effort for each level dropped, but exposes more blocks along the way.

They can also dig a shallower stair, two blocks ahead for each block down. This takes the player even farther away horizontally, but makes it much easier to run minecart trains up the stair.


Spiral staircases are slightly more complicated since they have frequent turns, but have the advantage of leading straight down, thus staying in the same chunk. This gives the player a more targeted dig, and can often reach bedrock quicker and more safely than straight staircases.

2×2 Spiral Staircase[]

Starting from a flat floor, dig one block ahead of the player, then dig 2 blocks down to the right of that. Then move forward into the first place they have dug, turn right to face the second step, and to its right dig 3 blocks down from the floor. The fourth step puts them below their original floor — leave the floor block to become a ceiling, and dig the three blocks below it down to the new step. Continue with this pattern, note that each turn of the stair becomes the ceiling for the next turn. This design drops 4 layers per full turn, but if they run into gravel, players need to place dirt or cobblestone to replace it for the stairway. Turning right forms a clockwise spiral, they can of course go the other way for a counter-clockwise stair.

3×3 Spiral Staircase[]

One design is a 3×3 horizontal grid. By digging one block down at a time, and moving around the perimeter of the 3×3 area, they leave enough head room as they move down the staircase. They can also add stair blocks to this setup as well. They can optionally leave the central column for a barrier, or mine it out to place ladders for speedy transit. Instead of ladders, they could use a waterfall, but they had have to place that after "finishing" the stair (dig an extra pit beneath the bottom of the column to prevent flooding). Players will also have to dodge out of the water column occasionally to breathe. For a long stair, the player will need 2 or 3 blocks deep water. Alternatively, they can remove the central column of the staircase when players finish, and flood the bottom so they can jump to it and save time going down.

The basic design drops 8 layers per full turn. They could build this as a shallower stair (4 layers per turn) for minecarts, but minecarts have trouble with the corners anyway, because of the rock around them.

4×4 Spiral Staircase[]

The 4×4 spiral staircase aims to expose as many blocks with the smallest spiral width. It is efficient because it exposes 20 blocks and misses 0 in the central column per layer, while the 5×5 spiral exposes 28 and misses 1 block per layer. Players can dig a 4×4 square and dig one block down as they move around the perimeter. Unfortunately, the 4×4 design does not have a central column that can effectively act as a water column, but 1 or 2 columns can be broken to accommodate ladders.

5×5 Spiral Staircase[]

This is similar to the 3×3, except that players dig out the edge of a 5 by 5 grid. The center column is cleared, acting as a supply of light on the way down. The middle acts as a safety barrier, and the outer ring has the staircase itself. The middle can also be hollowed (digging straight down should be safe so long as the player didn't find any caves or lava pools as they have made the staircase) out and a ladder or waterfall can be placed in it, with openings at different levels to allow for quick and easy access. Note that climbing ladders does not deplete hunger, unlike walking and jumping used to travel the outer ring. Swimming does deplete hunger, but since they have less distance to travel, they still come out ahead.

This design drops the player 16 layers each full turn, and provides an exploratory dig over a wider region. At the same time, it has a bigger chance to miss things in-between the spirals.

Additional Staircases

With a shaft of 4×4 or more, two staircases on opposite sides of the shaft going in the same clockwise direction can be added, allowing horizontal 'satellite shafts' to be added on each flight of stairs on opposite sides if the shaft, allowing for extremely efficient and exhaustive mining, and in shafts of 5×5 or more, a staircase can be added on every side of the shaft for an even more productive mine.

Room Spiral[]

This is variation of the spiral which consists of a spiral of 5×5 rooms leading down. Simply dig a straight staircase down for a short while, then dig out a 5×5 room and add a torch or two. Turn right or left, and dig another staircase for a short while, and dig out another 5×5 room, add a torch, and so on. Remember to always turn the same way. This method allows players to find a large number of ores. If they hit bedrock, don't worry, go back up to the first room and turn the opposite direction this time. It is very helpful if players want to avoid lava and such. It also has the tendency to open up underground caves, which are always well-stocked with ores and gems. Just remember to be careful of monsters, so always bring a sword when using this method.

Steep Diagonal[]

If one wishes to mine straight down, but needs to get up and down quickly, a steep diagonal staircase is useful. This method resembles a straight 1x2 staircase that has been folded onto itself for space efficiency. To achieve this, simply place stair blocks in a descending 1x2 pattern, with each one leading into the next. Repeat these units, descending 2 blocks every time until the desired length is reached.

A steep diagonal staircase, shown from underground in spectator mode.

Example of a steep diagonal staircase.

To ascend, center yourself with the middle halves of the stair blocks and tap A and D alternatively. To descend, center yourself and walk forward. If a clearance of 2 blocks is left above the highest stair in a unit, one may fall to each successive unit without taking fall damage.

Vertical shaft mining[]

Vertical shafts are mined vertical tunnels used to gain access to underground mining sites. They can be of any width starting from 2×1 blocks,or 1x1. Don't forget to keep a water bucket and a stack of blocks in your hotbar, to deal with lava quickly.


Also known as "Digging straight down". While there is a 62% chance of reaching bedrock and a 27% of landing in a cave, the player has a small chance of falling into dangerous places like lava (8%) or ravines (3%) (100 tests) (percentages from a video Mumbo Jumbo produced). If you absolutely must be the crazy one, try this: Put a bed and a chest at the top. Sleep in the bed, and put everything from their inventory into the chest except for pickaxes, ladders, a stack each of gravel and cobblestone, and perhaps some torches. Dig down until the player dies or reaches their target depth, placing ladders above the player as they go. Every 5 levels or so, cut a 2-block high foothold opposite the ladder. If they fell into a cavern and survived, pillar jump back to the hole the player fell out of, and/or build a cobble pillar in front of players, and put ladders on that. If they fall into a cavern and die, the footholds might let them break the ladders below it so they can drop gravel for a pillar, and perhaps retrieve any ore they have found on the way down, but be watch out for the hostile mobs. If the player fell into lava, they can forget about the ore, but perhaps they can drop water to quench the lava.

It is possible to do this method safely, but it is very time-consuming. It's the same as before, except hold ⇧ Shift to cling to the ladder while mining straight down. This way, if they mine into a pit or lava, they won't fall into it unless they unhold ⇧ Shift (⇧ Shift won't let the player move down the ladder, but makes the mining speed slower). If the player does find a cave, they can climb up a little bit, remove the last ladder the player put down, and put a bucket of water there instead. Now they can swim down, and if there was lava under the player, it will turn into obsidian, and will be harmless. They can also dig 1 deep and 2 wide alcoves in the side, giving them a place to put a torch, rest, and most importantly dig the hole deeper as far as they can reach without having to hold onto the ladder.

Note that mining upward in a 1×1 shaft can actually be safer, if the player are placing ladders as they go up. Lava will be blocked by the ladder, which can't burn (and even if it could, there's no place for a fire block to appear).


  1. Pick a place where the player wants the shaft
  2. Mine a first block adjacent to the block they are standing at.
    1. Step down.
    2. Mine a block the player were standing at and one below it.
    3. Place a ladder every block, skip this step if the player wants to place scaffolding.
    4. Go to step 2.
  3. Continue in above pattern until they reach their desired depth. From then on use a horizontal mining method of their choice. Put scaffolding if the player doesn't want to place ladders.
Simpler variant[]
  1. Pick a place where the player wants the shaft.
  2. Stand on the dividing line between two blocks.
    1. Mine the two blocks they are standing on, being ready to stop if need be.
    2. Place a ladder every block.
    3. Go to step 1.
  3. Continue in above pattern until the player reach desired depth. From then on use a horizontal mining method of their choice.
Even simpler variant[]
  1. Go into sneak mode.
  2. Stand in the middle of two blocks. These will form the mineshaft.
  3. Look directly downwards and hold the mine input, mining straight down.
  4. After 4 blocks, you'll be out of range. Keep holding mine and move slightly right or left to mine the other column.
  5. Mine until you no longer can. Should be 8 blocks. Move to the other column.
    1. (Optional) Mine any iron/coal in the walls of the shaft.
  6. Repeat pattern until at desired depth.

This method is fast and secure, as you can see hazards in advance and avoid them due to the fact that you can't fall off blocks in sneak mode. It also requires very little in the way of player input, making it quasi-semiautomatic. To ascend simply pillar up using the copious amounts of stone you have no doubt amassed in the course of your tunneling. Word of warning: this method consumes about 80 percent of the durability of a stone pickaxe. Be sure to bring wood to make a crafting table and sticks to craft a replacement.


Similar to 1×2, but players have more room to place torches, ladders, or footholds in case they fall off the ladder. They will also get more warning of gravel masses, caverns, or lava, and an extra block of room to deal with them. This is relatively safe, and is a good way to start a mine from the base.

The more common version runs the ladders down the middle of the wide side, that is put blocks to break the fall on both sides every few levels, and at their mining levels, but another way to do it is to put ladders on one end, and put a waterfall on the other. They can then put a few blocks in the middle to prevent falls, but leave plenty of spaces to pop out of the waterfall for a breath.


The player want to excavate one level at a time, placing ladders down one corner of the block. This technique is relatively safe.

Vertical mineshaft with water drop[]

Vertical mineshaft top

Cutaway of the top of the mineshaft. (1) Entrance passage (2) Ascent shaft (3) Descent shaft.

Vertical mineshaft bottom

Cutaway of the bottom of the mineshaft. Note the placement of torches in the ascent and descent shafts. (1) Ascent shaft (2) Descent shaft (3) Water pit (4) Side passage to utility room/mining area.

A vertical mine shaft can be built quickly and allows safe, fast access to the deepest regions of the map. To descend to the bottom, simply walk into the shaft. The player will pass over the ascent shaft, fall into the descent shaft, and land in the water pit. To ascend, climb the ladder and hop out.

This guide describes the construction of a vertical mine shaft with the following properties:

  • Provides quick access to the lowest mining levels
  • Fast construction


  • Unsuitable for minecarts
  • Requires a decent amount of wood
  • Slow Ascension


The log requirements amount to approximately 60 blocks of log.



  1. Gather all materials
  2. Dig 3-wide pit to bedrock
  3. Dig utility room
  4. Dig and fill water pit
  5. Place ladders in ascent shaft
  6. Fill in center of shaft


First, gather and manufacture the materials. Be sure to fill the buckets with water. The shaft will be constructed to the side of an existing room. Start by excavating a 3-block deep alcove. If the top of the shaft is above ground, it should be surrounded by fences or walls with only one entrance on a narrow side. Place one torch in the end of the alcove as illustrated.

Next, a 3-block wide pit will be dug all the way down to the bedrock. Do not dig out the block the player are standing on. Dig out a 3-high by 2-wide section, then hop down into it and dig out the 3-high column that the player were standing on. Place torches on both sides (ascent and descent) at regular intervals, excavating 1 block to place them in. In the ascent shaft, torches should be placed in the wide sides so they don't interfere with the ladder. In the descent shaft, torches should be place in the narrow side, primarily so that the player can keep track of which side is ascent and which is descent.

Be careful when digging out any blocks beside the player. Lateral breaches into lava pools or monster caves can be hazardous. Be ready to plug the hole, or hop up and throw blocks down so the player can escape upwards. Also, be sure that the 3×2 section hasn't opened into a cavern before players hop down. Keep the pit well-lit. When players reach the bedrock level, make a 3-deep pit on the descent side. Fill in the middle and ascent sides as needed, as in the screenshot.

Mineshaft utility water trough

The water trough in the utility room.

In the middle of the shaft, cut a side shaft. Due to the fact that the landing pit must be 3 deep, they may want to stairstep downward a few blocks in this shaft. Next, dig out a utility room. Cut a 3×1 horizontal trough in this room for water. Empty each bucket into the end of this trough. The water should fill it in and become still.

Fill the buckets again from the center of the water trough. Use the water to fill the pit at the bottom of the descent shaft. Be sure that the pit is 3 deep, and each block is filled with water.

Now it's time to place the ladders and to fill in the center of the shaft. Stand in the ascent shaft and face away from the descent shaft. Place ladders on the wall in front of the player and climb. Build the ladder all the way to the top.

Descend to the bottom again using the ladder. Be careful, because the center of the shaft is not filled in yet, and it's possible to fall to their death. Once at the bottom, stand in the middle of the shaft and fill it with blocks. Hop upward and place blocks beneath themselves. When they reach the top, leave the central pillar 1 block below the surface (see screenshot). Leaving it 1 block lower allows players to enter the descent shaft simply by walking in.

Alternate landing

Instead of a 3-block deep water landing pit, if players place two blocks of water at the bottom of the shaft in the ceiling of their utility room at the bottom and "hold it in place" with a sign on the wall below the shaft, it will break their fall as they fall through it and they will land without damage on the bottom of their utility room area.

Fast 1×2 shaft with little resource[]


The 1×2 shaft design. "S" is water source, brown squares are signs, placed in numeric order.

One of the fastest ways to descend in the game is indeed falling, but climbing ladders is not a fast method of upward transport at all. You may be thinking, having a soul sand bubble column would be fast, but unfortunately you won't get that one block of soul sand without going to the Nether, which you might access by obtaining the very obsidian you gather deep underground. Luckily, there is a fast method of upward transport that you have access to without much resources at all: sprint swimming and jumping at the same time. Sprint swimming is already fast, and if you hold down forward, sprint and jump at the same time while looking directly upwards, the effects add up, and you can rise at a speed of 6.98 m/s, 3 times the speed of climbing up ladders, even in a downward flowing column of water. So based on this mechanic, here I present to you the least resource-intensive 1×2 vertical shaft design for early game.



First, dig a 1 by 2 pit in the ground. place a sign in one of the spaces attached to the side, and the water in the other space.


looking down the vertical shaft. Only the top water block is a source.

Second, stand in the pit between the water and the sign, and start digging below the water. When you reach the limit of your reach, start digging on the other side (below the sign). Remember to always keep the hole at least one block deeper below the water than below the sign, so that the water does not flow sideways and push you away from the optimal spot. You can stand slightly towards the side with air, while still touching the water, so that you can breathe.

If you hit a cave, it's okay. With the safety offered by the 1×2 technique and the water, you won't take fall damage. Just block the cave off, to make your shaft clean and shielded. If you hit an underground lava lake, the water will turn it into obsidian, but if you are not at your preferred y-level yet, you will have to abandon this shaft and dig a new one. But hey, you can keep this shaft so that you can grab some obsidian in the future!


The bottom of this sprint-swimming vertical shaft. Notice the height where the signs are placed.

When you reach the designated y-level, first make sure where you want the floor of your mine to be. Now count 3 blocks up from the floor, and place a sign on the wall in the column with air (i.e. below the first sign). Then, place the third sign next to it on the wall, right in the middle of the water column. Now the water will be blocked, and will flow sideways over the second sign. When you are finished, you should have 3 blocks of clearance between the floor and the water, and you can see water above both signs. Now you are basically done with the shaft, and can expand your mine however you like.

Ascension & Descension[]


the positioning of the player while swiming up the shaft.

To go up the shaft, stand below the water column, look straight up and hold jump. Right as you reach the peak of your jump, your head will be slightly touching the water (the player is 1.8 blocks tall, and can jump 1.25 blocks off the ground, which means the top of their head will reach a height of 3.05 blocks, overlapping the 4th block space from the ground.) Continue to hold jump, and you will start rising up the water column. After your head is submerged and the air meter (the bubbles) starts showing up, press sprint, forward and jump at the same time (the same three keys you press when you are sprint-jumping over land). Now you will ascend rapidly in the water column, at a speed much faster than climbing up ladders, and just slightly slower than going up a soul sand bubble column. While you are ascending, you can slightly move sideways and expose your head to the air, so you can replenish your oxygen while keep sprint-swimming. If you fall off the water column, there is no danger, as you will just fall into the flowing water beneath.

To go down the shaft, simply walk into the air column under the first sign. You will drop straight into the flowing water beneath and take no fall damage at all.


  • It's fast, obviously. (I'd call it a poor man's bubble column.)
  • You don't need any more resources other than the ones listed above.
  • The 3 signs required can be crafted in a single batch.
  • It's 1 by 2, so not a lot of digging involved.
  • Compared to ladders, you won't require more resources (wood) the longer your shaft is.
  • Compared to a water pit in the ground, you are in and out of water once you hit the bottom.
  • No soul sand (and kelp) required!
  • While swimming upward, you can just move sideways when you run out of air.


  • Requires a bucket (3 iron ingots), which you have to get by exploring some surface caves.
    • If you really can't find iron, you can alternatively utilize a natural water source, like lakes, rivers or oceans.
  • You need to be good with water (but come on, practice makes perfect!)
  • You need to dig in a specific way while going downwards, otherwise the water can get messy.
    • Alternatively you can dig the hole the old-fashioned way, and climb up using the water bucket.
  • Sprint-swimming requires a lot of food. (But food isn't that hard to get after all)
  • Depth Strider doesn't make it faster — it only speeds up horizontal movement in water, not vertical.
    • Therefore, if you are wearing Depth Strider boots, it's hard to maintain position in the water column, as a little bit of tilt can lead you off track substantially.
    • But this doesn't really matter, as you will likely be using a soul sand bubble column instead of this vetical shaft, by the time you have Depth Strider.

Horizontal Mining (or Resource Mining/Stratifying)[]


Horizontal mining is not as dangerous as vertical. But there are some similar suggestions. Carry a water bucket and some blocks of some disposable, non flammable material (e.g. sand, gravel, cobblestone) somewhere on the player's hotbar. A block can be used to quickly plug the leakage in cases of lava, and water can be poured over source lava to turn it into obsidian, as well as to put out fires. (Flowing lava will usually turn to cobblestone, occasionally stone, if the water is a source block.)

Terms and Definitions[]

Main shaft/access shaft: a 1×2 or 2×2 tunnel use accessing other tunnels.

Efficiency: how many ores the player gets for the amount of effort they put into the mine, or how many ores and cobblestone they dig to find them.

Thoroughness: how many of the ores the player extract per chunk.

The tradeoff: a mine can be made more thorough at the price of efficiency, or vice versa.

Layout: the top-down view of the mine.

Branch: the tunnels dug purely to gather ores.

Branch-length: how many blocks the player dig their branches out. One recommendation is to measure a length with the durability of a stone pickaxe.

Spacing: how far apart the branches are.

Completely Thorough: a mine that reveals 4 new blocks dug, and reveals every block within a chunk, is completely thorough.

Tiering: "stacking" one branch mine on top of another, in order to obtain a much greater degree of thoroughness without sacrificing too much efficiency.

Efficiency vs Thoroughness[]

Efficiency in Minecraft mining is defined as how many ore blocks the player mines, relative to the time spent reaching them. Thoroughness is the percentage of the ores a player has extracted from a given chunk. Efficiency is approximated by blocks revealed per blocks mined, while thoroughness is approximated by blocks revealed per blocks in a chunk. Since both include "blocks revealed", they are often confused.

If we assume that all ores spawn in 2×2×2 cubes or larger, then there is no need to reveal every block. Mining three spaces wide, with four blocks between each shaft will be completely thorough. If we assume that 90% of ores are 2×2×2, but 10% are 1×1×1; while obtaining 100% unitary thoroughness then requires a spacing of 3 and a tiering distance of 2, the original mine (the 3-space 4-tiering) maintains a thoroughness of 98%. The 100% thorough mine requires mining twice as much stone while only increasing the total yield by 2%, resulting in half the efficiency.

In order to give an actual number for efficiency, we can use efficiency=100×(number of ores collected / number of blocks mined)-or, equivalently, %efficiency = (number of ores collected/number of blocks mined)

Several assumptions must be made:

  1. Ore is distributed randomly
  2. Ore is oriented randomly
  3. Ore occupies a certain width, whereby two tunnels running too close to each other would intersect the same orebody twice.

In Minecraft these assumptions are essentially true, though there is some distortion since diamonds only spawn once per chunk.

So we reach the crux of the argument; tunnel spacing. In the traditional "efficient" mining methods, tunnels are spaced close together in order to "observe" the maximum number of blocks possible, therefore removing all of the ore from an area. So, let's consider a spacing of 1; that is one tunnel separated by one block from another tunnel. During the digging of the first tunnel, several ore bodies are encountered. This tunnel has a high efficiency (in fact, the maximum efficiency possible, as we shall see later). The second tunnel has a very low efficiency because almost all of the ore bodies it encounters have already been removed by the first tunnel. This causes the efficiency of the mining operation to plummet. A spacing of 1 is incredibly inefficient. Now we move to a spacing of 2. This is a spacing that a lot of people use because it leads to 100% observed blocks in a single layer. However, with a spacing of 2, the second tunnel still encounters several ore bodies that have already been removed, so it is also quite inefficient. We can go on like this; as long as the second tunnel has a chance of encountering ore bodies which have already been removed by the adjacent tunnel, it will have a less than maximum efficiency. It follows that the most efficient way to mine is to place the second tunnel far enough away from the adjacent tunnel that there is no chance of encountering ores that have already been removed.

The problem has been modeled in MATLAB using a 2D slice of a real Minecraft level and a virtual mining procedure. The model mines a 1 block wide tunnel through the 2D layer and removes all diamonds it encounters, just like a real player would do. The model is limited to diamonds but the principle applies to all ores. It repeats the mining for different tunnel spacings, from 1 to 10. The model then records how many diamonds were mined for each case, how many blocks were removed, and calculates the efficiency of each spacing. A simple graph is produced:

Maximum efficiency is reached at a spacing of over 6 blocks

The results indicate what is expected — that when tunnels are close together they are not efficient because the miner will encounter diamonds which were already removed by the adjacent tunnel(s). A good efficiency is reached at a spacing of around 6 blocks (that is, 6 solid blocks left in-between the tunnels). At this spacing, efficiency is about 0.017, corresponding to 1.7% of blocks removed being a diamond. At this spacing, the tunnels effectively become independent of each other and so, statistically speaking, the chance of encountering an ore are maximized because there is no chance the ore has been removed by an adjacent tunnel.(true independence would need spacings more than a chunk) Above a spacing of 6, efficiency does not increase greatly because ore collection rate is simply a function of the distribution of ores within the level. Note: in the above graph, efficiency appears to drop-off at a spacing of 10. This is simply a limitation of the size of the level used to model the process, resulting in a large error at high spacings. If a larger level were used, the line would smoothly approach a maximum efficiency but never quite reach it.

In summary:

  1. The term "efficiency" is often applied to the practice of making every block observable, however this is not usually the objective of a miner.
  2. A more practical definition of "efficiency" describes the percentage of blocks removed that are ores, in other words efficiency = (ores removed / blocks removed).
  3. A significant portion of the efficiency comes from the size of an ore cluster, or the chance of having already mined that ore from an adjacent tunnel.
  4. A good efficiency, for diamonds, is reached at a spacing of 6. Since other ores are usually collected in copious amounts compared to diamonds, this spacing is recommended for every-day mining operations.
  5. Maximum efficiency is reached in the case of infinite spacing between the tunnels. Or in other words, the humble single straight tunnel.

Branch Mining[]

Branch mining consists of mining out side tunnels from an access shaft to expose as many blocks as possible with a minimum of blocks removed.

Creating a Branch Mine is simple. First, dig deep underground until 0-16 blocks above the bottom level. To keep track of this, press F3[JE only] or type /gamerule showcoordinates true[BE only], and the Y-coordinate tells the vertical level the player character is currently at (It is best to mine at level 11 because it is easier to deal with lava lakes on that height). Upon reaching the desired level, begin to dig at least 20 blocks into a wall to create a shaft. Come out of the shaft, move at least 3 blocks to the left or right, and do the same again, digging 20 blocks into the wall. Each shaft made will almost always contain a resource block ranging from coal, iron, redstone to even gold and diamond.

There is a tradeoff between the spacing chosen between each branch of the mine. A spacing of 2 blocks per branch means that players will end up exposing almost every block, but at the cost of a lot of work. A spacing of 5 blocks per branch will give them a wider area covered but there is the possibility of missing some blobs, especially diamond or lapis lazuli which can appear in blobs of less than 4 blocks. Using the diagram titled "More compact 3-Space branch mine" (open the "Offsetting mine levels" collapsible to see it) leaves no ores hidden, however requires them mine more stone. It is recommended to use this method if they don't mind mining a bit extra and really need the gold, redstone, diamond, iron, and coal.

Layout 1[]

The trade-off for spacing can be minimized by making a branch mine a level above and below the first branch mine that is offset from it. (This is a side view) For example:

Offsetting mine levels 

Layout 2[]

Another option is the per-chunk branch mine. This is a 2 space branch mine, but is constructed over the space of a single chunk, and is capable of ensuring that every ore deposit is found, while still only mining around 45% of the chunk's stone. For the initial shaft to bedrock for this mine, a 1×2 shaft will fit lengthwise in the central corridor. Also, considering in most cases each chunk have one diamond ore blob, if their only priority is diamonds, they can place the top most branches at level 14 & 15 and dig branches from top to bottom until they strike a diamond blob and then skip the rest of the chunk.

Per-chunk Branch Mine 

Layout 3[]

Antennae layout

An effective technique if players want to find rare resources with minimal effort. It is basically mining down to any level, usually to bedrock, and then mining outwards to the sides, much like a tree with a trunk and branches.

  1. Use the staircase method to dig down to bedrock.
  2. Go up 2 blocks and fill any space below they have mined out.
  3. Dig a 3×3 room.
  4. Dig a straight 2×1 tunnel in a straight line then dig out 32 blocks every 4th block.
  5. (Optional) If the player don't want to count to 32 every branch, dig out a "Marker" 1×1 tunnel 4 blocks in and stop by it in the next branch.
  6. To further increase efficiency, the player can end the 20-block tunnel by digging 4 blocks of an 1×1 tunnels as each of the mined block reveals more than a 2×1 tunnel.

This method is based on the relatively low probability of desirable blocks being created without any neighbors, so it will occasionally miss small or narrow ore deposits that fall entirely between the branches, but it covers ground faster, so players will usually get more ore for their time. If the player would rather be sure of 100% coverage, simply place the tunnels closer together. It is also meant to be done quickly.


                           X = Tunnel "Trunk"
                           B = Branch
                           S = Staircase
                           Y = Outpost (for supplies, etc.)
                           - = (Optional) 1×1 block tunnel
          B-------B                 B-------B
          B       B                 B       B
          B       B                 B       B
          B       B                 B       B
          B       B                 B       B
          B       B                 B       B
          B       B       YYY       B       B
          B       B       YYY       B       B
          B       B        S        B       B
          B       B        S        B       B
          B       B        S        B       B
          B       B        S        B       B
          B-------B        S        B-------B

Each branch can be any length, but about 32 blocks long is a good length to begin with, as it can be measured with the durability of a stone pickaxe.

Layout 4[]

Mining system

a pinwheel mine with a spacing of 2

Pinwheel Mining System.

The Pinwheel Mining layout:

The Pinwheel Mining layout is designed to cover large squares of land, over long periods of time.

  1. Get to the diamond layer by the player's preferred method,
  2. Dig out a room-as large as 10×10×8 if the player want to set it up as a self-sufficient base, or as small as 4×4×2 if the player just want to get mining, and use even numbers if they like 2×2 access shafts or odd numbers if they prefer 1×2 access shafts.
  3. Mark the access shafts into the middle of the walls; the picture shows 2×2 tunnels. If players do not use the wide tunnels, mark the main shafts with signposts.
  4. Dig a given access shaft out until their inventory is full. They'll have plenty of chances to get the ores out of the access shafts.
  5. Note: If they use a simple straight staircase to get down, they may need to leave off the south tunnel for a while.
  6. Mark the branches at the desired interval. The picture shows a spacing of 2, which is 100% thorough but inefficient.
  7. Dig out each branch until their inventory is 3 spaces away from full, then turn around.
  8. On the way back, place torches in any dark spots, and collect any missed ores — collecting all the coal is advised, but not required.

As always, the player can use any spacing; a spacing of three provides both reasonable efficiency and reasonable thoroughness.

This layout can compete with the phoenix mine in terms of efficiency, and is easier to modify if necessary, but it does require a lot of time for each trip.

Layout 5[]

Room and fork layout

  1. Dig a room that is 7 blocks long, 10 blocks wide and 3 blocks high. Have their stairway or ladder in the middle of one of the 10 block walls, preferably 2 spaces wide.
  2. Starting in one of the corners, dig parallel to one of the walls of the room the player just dug for 20 spaces, and place a torch every 5 blocks.
  3. Then, dig another 20 block tunnel that has two blocks between it and the previous tunnel.
  4. Continue until the player reaches the other side of the room.

Diagram (dirt: tunnels, stair blocks: a staircase):

By utilizing this variant properly, players can uncover all the blocks in quite a large area, and the mineral yields are quite high. Having the stairs 2 blocks wide allows for thorough strip mining as they can be strip mined around. Also, a good length for each tunnel is 20 blocks long.

Layout 6[]

Branch mine with poke holes

A branch mine with pokeholes (top view)

Branch mine with poke holes spacing

The spacing between the branches (11 blocks) - 12 blocks may be preferable, as in this screenshot the center block is obviously viewable from both sides instead of being two distinct blocks

Branch mining with "pokeholes".

A branch mine with pokeholes is a variation on a traditional branch mine, but designed to have a better blocks-revealed to blocks-mined ratio. Like a traditional branch mine, branch mines with pokeholes have several parallel 2×1 shafts that branch out of a main trunk shaft. However, they are much further apart than in a branch mine (11 blocks as opposed to 3). The reason for this is that as player dig the 2×1 shafts, every 4th block forward they have go, they dig a 1×1 hole to the left and the right, revealing many previously hidden blocks. This technique used to be called "feather mining", but after xisumavoid's video covering this method, it's more commonly known as "branch mining with poke holes", or simply "pokehole mining". The mine got its old name from its feather-like shape when viewed in a cave map or with an x-ray resource pack.

Tiered Branch Mining[]

Mining example

Advanced branch mining is one of the most efficient way to mine 100% of the ores on multiple levels.


This setup allows for linear navigation along tunnels by first selecting depth, then choosing an appropriate tunnel at that depth.

Tiered branch mining is the art of stacking shaft mines on top of one another.

If the player decide to stack their mineshafts, however, they should use an odd-spacing, or they will get inefficiency and blind spots.

For instance, the following tiering has the advantage of being very thorough, while finding any 2×2×2 cube of valuable ore. It has the disadvantage of missing some of the smaller blobs, though it doesn't miss as many as players might expect it yields somewhere between 80 and 90% of the ores in a region.

(mine at y=15, y=11, and y=7)
(bedrock begins.)
(x=branch, o=stone)

This is a good mine for single player if the player can't stand the mere possibility of leaving 2×2×2 cube of diamonds just below or above their initial mineshaft and this will find them.

The next one has a tiering distance of 3, and is noticeably less thorough, but it finds at least 90% of the diamonds in a chunk:

(bedrock begins)

This is a good mine for somewhat crowded multiplayer, where thoroughness is actually worth something.

Should the player be willing to sacrifice efficiency in exchange for revealing every last block, players can use a tiering distance of 2:


This particular tiering, however, is not only inefficient, but requires one of the access methods shown in the pictures-either an 8 tall, 2-3 wide tunnel with staircases as shown in the gray picture, or with one access shaft for 2 sets of layers. This should be used only in ridiculously crowded multiplayer servers, when what matters is finding that one redstone blob that got missed by all the random-miners.

However, nearly any spacing and layout can be used with a given tiering distance, as it is fairly thorough, only slightly less efficient than a straight shaft, and it can be transformed into nearly any level of thoroughness without wasting effort.

Nearly any layout, spacing, and branch-length can be combined with any tiering distance, though doing it with a phoenix mine on the compact spacing is not recommend for anyone who gets headaches easily.

Windmill mining[]

Windmill mining is an efficient mining technique invented by a Japanese Minecrafter てりぃ (pronounced like Terry).


  1. Players don't need to count a large number of blocks.
  2. Players won't get lost in their own labyrinth.
  3. Players can easily predict biomes that they are going to mine. If they want to mine emeralds, just choose the center of mountains for their start point.
  4. It is relatively easy to suspend and resume mining.
  5. It has the same efficiency as 3 space branch mining.



Descend to the level you wish to start mining based on the ore you wish to find. This is the start point denoted by the grass block.

Dig a 1×2 tunnel of 4 blocks long from the start point, then put a mark there denoted by the gold block.

Don't make it 1×3. That will only reduce the efficiency.


Turn right, dig 4 blocks, then put another mark denoted by the redstone block.


Turn left, dig 4 blocks, then put a mark.


Turn right return to the previous mark, dig 4 blocks, then put a mark.

Dig 4 blocks put another mark.


Turn left, dig 4 blocks, then put a mark.

Turn back, return to the previous mark, dig 4 blocks, then put a mark.

Dig 4 blocks and put another mark.


Repeat the previous step.


Repeat the previous step but while the player are doing so, they will reach the mark they have put before. Now the player have completed the first lap.

After the first lap[]


Choose one of four corners and go there. Go to the "gold" mark they have previously put.

Turn right, dig 4 blocks, then put a mark.

Turn left, dig 4 blocks, then put another mark.

Turn back, return to the previous mark, then dig a tunnel until they reach the "gold" mark they have previously put.


Dig 4 blocks, then put a mark.

Turn left, dig 4 blocks, then put another mark.

Turn back, return to the previous mark, then dig a tunnel until they reach the "gold" mark they have previously put.


Repeat the previous step.


Repeat the previous step. Now they have completed their second lap. Repeat the entire steps until they are satisfied.

Speed Mining[]

Speed mining is a mining technique in which a player randomly mines out a 50 block radius around them. Stone can be instantly broken by using an Efficiency V diamond or netherite pickaxe while under the effects of Haste II from a beacon, allowing the player to quickly clear out a large area. It is at first expensive, but pays off quickly. It is suggested that the player to do this at diamond level.

To save inventory space and avoid having to smelt cobblestone into stone, the player can use a Silk Touch pickaxe to mine and collect ores, then use a Fortune III pick to mine the ores.

Simple Strip Mining[]

This technique is to take off the top 6 layers of a mountain completely. Continue until the mountain is entirely flat. TNT is useful for the first 5 layers, since the explosion will destroy grass and dirt for the most part.


Key: A = Air
     B = Block
     L = Ground Level

Step 1:

         A A A A A A A A A A
         A A A A A A A A A A A A
       A A A A A A A A A A A A A A
       A A A A A A A A A A A A A A A
       A A A A A A A A A A A A A A A
     B B B B B B B B B B B B B B B B

First 5 layers are gone when the player started mining.

Next couple steps are as shown:

         A A A A A A A A A A
         A A A A A A A A A A A A
       A A A A A A A A A A A A A A
       A A A A A A A A A A A A A A A
       A A A A A A A A A A A A A A A
     A A A A A A A A A A A A A A A A
   B B B B B B B B B B B B B B B B B B
         A A A A A A A A A A
         A A A A A A A A A A A A
       A A A A A A A A A A A A A A
       A A A A A A A A A A A A A A A
       A A A A A A A A A A A A A A A
     A A A A A A A A A A A A A A A A
   A A A A A A A A A A A A A A A A A A
 B B B B B B B B B B B B B B B B B B B B B

This time-consuming method is a useful tool for when they need minerals or a flat area.

Quarry mining[]

Quarry mining is very similar to strip mining, sharing the prospect of taking all resources within an area. These mining methods are used very common in Minecraft. The difference between quarrying and strip mining is that the process of quarrying involves a large rectangular or square strip, continually mined downwards with a staircase running along the side. This method got its name by its similarity to real world quarry sites. Quarries are typically ceased when a large cave is discovered (This does not directly stop the excavation, it just makes it difficult to continue), the miner abandons the quarry for another project, or bedrock is reached. A way to deal with large caves is to block the cave with Creeper-resistant materials, like obsidian. One can place a (powered) rail in a spiral, to allow ease of access.

The construction of a quarry is as follows:

  1. Determine the size of the project. There is no standard, so simply choose how big players want it to be. However it is advised that they make the area large, to maximize resources within a single quarry. (A typical quarry can be 20×20 or 20×30, for example)
  2. Once the player have found a large enough space, dig down one space at the corner of their site. Next, mine the block adjacent to it. Continue this around the perimeter of their site until they have a 1-block-deep trench around the perimeter of the site.
  3. Now that the player have set their perimeter, mine all of the surface blocks within their site. When this is finished, they should have a large, square, 1-block-deep hole in the ground.
  4. Next, head back to the first corner that the player have dug in, and dig down one more block. Repeat what the player have did in step 1, but now they will be one level lower. Upon completing this level, they can begin placing their staircase/ladder/vines as well.
  5. Continue the process of mining a layer, and then another, until they hit the bedrock level. This may take a few days of vigorous playing to accomplish, but their earnings will make it well worth it. For reference, 20×20 quarries (down to bedrock) typically yield 3 - 10 stacks of coal, 1 - 7 stacks of iron ore, up to half a stack of gold ore, perhaps 50 redstone dust(lower down), and a few lapis lazuli and diamond, though these results vary with the width, depth and location of their quarry.
  6. Various game mods may also provide tools for quarrying or similar rapid-mining techniques.

Really reckless miners have been known to make huge quarries, some giant ones are 50×50, 64×64 and 80×80, yielding a staggering 2200 stacks of cobblestone/stone. To put that in perspective, that many cobblestone blocks in a tower would be a whopping 140,800 meters tall, or an unrealistic 170 times the height of the Burj Khalifa, which is the tallest building on earth. These will take a couple weeks of 24/7 gameplay, given their size, but the stone payoff is gigantic.


Key: - = Air
     B = Stone block
     S = Staircase

Top of mine:


Next few levels down:

         B-----------------------------B          B-----------------------------B
         BS----------------------------B          B-----------------------------B
         B-----------------------------B          BS----------------------------B
         B-----------------------------B          B-----------------------------B
         B-----------------------------B          B-----------------------------B
         B-----------------------------B          B-----------------------------B
         B-----------------------------B          B-----------------------------B
         B-----------------------------B          B-----------------------------B
         B-----------------------------B          B-----------------------------B
         B-----------------------------B          B-----------------------------B
         B-----------------------------B          B-----------------------------B

Although the yielded amount of cobblestone, dirt, sand, coal, iron, and to some extent gold, will be enormous, and the possibility of lava is very high, this is not the best method for mining diamond and lapis lazuli, because they're found only at the bottom of the map. (Note: Diamonds and lapis lazuli can be mined using this method, but due to their rarity, the placement of the quarry along with its size will determine the amount.) This type of mining is suggested for getting large amounts of cobblestone, iron and coal. Besides the ability to gain large amounts of resources, this type of mining may expose many caves for further exploration and mining.

Quarries may also offer some non-resource related benefits, such as keeping the area clean and fresh (not ruining the nature), as well as serving as a handy trap.

Warning: Be extremely careful around this type of mine, as a fall will surely be fatal, unless there is 1 level of water at the bottom. In order to prevent mobs from spawning, the shaft should also be well-lit.

Once a quarry is finished, there will remain a large, deep hole. There are many ways to utilize a spent quarry, but some choices are as follows:

Underground Base

Due to the open nature of a quarry, many players choose to build an intricate base floating in the quarry, and then fill in the unused space with dirt, gravel, sand and stone. If done correctly, an underground base will be undetectable from the surface, especially when grass grows on the surface above it. For extra stealth, consider planting trees in the open area. A player might deter miners by placing a large lava lake over the base. This will also decrease hostile mob spawns around the base.

Structure space

When a quarry is complete, the area can be filled with a structure such as a skyscraper or a tall building. This may be preferable to building at sea level, as the lower starting height may allow for larger structures within standard height limits.

Underwater Base

These are made by the same method as an underground base, except the open area is filled with water from artificial springs, lakes, rivers, etc. For additional effect, a lot of players build underwater bases from glass blocks, and build airlocks for extra stealth. Most quarries are square or rectangular, so it is hard to disguise an underwater base as a natural lake or pond, but with a little bit of work, they can be made to look like a natural body of water.

Multi-level Grinder

After a quarry is finished, the large area mined out can make a perfect space for creating a large multi-level grinder.


This involves digging a long tunnel. The player will need a lot of planks (for sticks), and optimally, crafting tables, chests, and furnaces. The simplest tunnel is 2 high by 1 wide (1 high by 1 wide using suffocation prevention with trapdoors[Java Edition only]), but the wider and higher the tunnel, the more cobblestone they get per chunk, the more they have explored (they will not gather cobblestone any faster, also they will get less ores). Dig at about level 50 if under land; 40 if underwater; or 11 if for precious ores such as diamonds. The player may want to use the cobblestone to seal off caves already explored. This is like a quarry — but more useful since less resources are spent going through the dirt/sand layer, and it can also be used in conjunction with minecart tracks to go from one base to another. A 4×3 tunnel that is 1800 blocks long will yield as much as an 18×18 quarry to bedrock, though arguably safer as they won't hit the lava layer, and it will yield more diamond/redstone if at layer 12, as well as the fact that falling in is completely non-lethal.

A 2×1 shaft is probably the highest-yielding way of mining for ores that is. Mathematically, a 2×1 shaft reveals 8 blocks for every 2 blocks mined forward, so the basic premise of this system is that digging little 10-block deep side shafts off of their main tunnel, as in branch mining, does not yield any more ores than digging straight as their yield will be highest if they simply keep moving forward and mine endlessly instead of stopping a 2×1 shaft will also lead them into plenty of caves, which could be good or bad depending on how they have feel about those. A good strategy for cave run-ins is to make a quick run-down and nab any visible ores, then find their shaft and keep moving. If they don't want to walk all the way back home after digging this, just dig in a "U" shape until a little less than half of their pick is used up, move 8 blocks to the side, and go back. The 2 biggest problems with this kind of mining are: A. It takes a lot of torches, though their coal yield is way higher than the amount they have spend on torches, and B. They have covered a lot of distance, therefore their chances of having lava run-ins are pretty high.

A variation on this kind of tunnel-mining is to drill a finger tunnel into the stone for 20 blocks, placing torches as they go; retrieve any ore found; then recover the torches as players exit, plunging the tunnel back into darkness; then block up the entrance to the finger tunnel with just two blocks of surplus cobble. By leaving the finger tunnel unlit, and unfilled in, it's true that monsters may spawn later, but they are trapped in the walled-off tunnel. Be careful not to mine back into the same area later and also, there is a low chance that monstrous noise might become disconcerting later.


The name fits any combined mine such as the following:

Quarry-Branch Mine[]

This involves digging a quarry and adding ledges every few blocks down around the outside while digging. The sides of the quarry have to be a certain length, for example with a two-space branch mine, the player need each side to be 3n+1 blocks long. The result will vaguely resemble a shopping mall atrium with one massive open space and then a bunch of "shelves". Then, dig the shafts to at least 20 blocks for a ton of ores, including quite a few diamonds (about 3 blobs) down on the lower levels. For a 10×10 quarry, they will get about 150 stacks of cobblestone, while for larger mines (e.g., 40×40), they will get around 2000 stacks, handy for massive building projects.

Quarry-Cave Mining[]

Dig a quarry down to under Y-level 25, and attempt to unearth a cave. If they did, they can explore that cave. Many of the deeper caves have no surface entrance, and being able to expose a cave that is otherwise sealed to the outside world through a quarry can garner them both large amounts of cobblestone, dirt, and gravel, as well as the rewards of mining out a deep cave. If they don't want to hold on to the stone that is excavated, they can use it to fill in dead ends, allowing them to navigate the remainder of the cave more easily.

Quarry-Drop Shaft Mining[]

This involves basic quarry technique but in small squares. First, the player decide how large they want the mine to be. For example, a make a 3 by 3 hole then go over 1 block and repeat for a 2 by 2 square quarry. Also this allows for maximum ore exposure. But they would need at least a 3 by 3 squares, going all the way to the bedrock layer.

Warning: This can be very dangerous, as they can run into hidden caves, dungeons, lava pools, and mineshafts.

Mass Mining[]

For those who favor mining in a straight path but try to not make it very long. Once they have reach the bedrock level, go up a few blocks and start mining and make it a large corridor. If the player reaches a cave, continue to make the large corridor and secure the cave. This will give the player large stores of cobblestone and more of a chance of finding lava. Find ores that are nearby that would be hidden if the player did another technique and did not get lost in their mine. This a very basic technique yet a tiring way of mining. It is suggested to use a diamond pickaxe with max efficiency enchantment and unbreaking enchantment so that the pickaxe doesn't break during the process and also consumes less time compared to using a non-enchanted stone pickaxe.

Special techniques[]

TNT mining[]

TNT mining is dangerous. If you must do it, you can use the 3-in method: First find a solid stone wall, mine 3 blocks inward, then place 1 block of TNT on the third hollowed out space. Once placed with flint and steel in hand, they right-click it with the flint and steel and back up a few steps and quickly block off the front of the hole with one block of stone. The explosion should create a perfect 3×3×3 hole. Repeat as desired.

A much faster but risky technique is mining in a small alcove, filling it with multiple units of TNT, and igniting it, creating a fairly large cavern. While this variation uncovers a large number of blocks at once, the explosion can let a large amount of lava leak in, making the cave hard to access and burning any drops created by the explosion.

TNT is expensive to manufacture (requiring 4 sand and 5 gunpowder to make 1 TNT), thus another mining technique to maximize the use of each TNT is to dig a 2×1 tunnel 4-5 blocks into the wall, then at head height mine 2-4 blocks (depending on desired size of hole) to their front, right, left, up and down. Place 1 block of dirt to act as a stand for the TNT to explode in the middle. The explosion should create a roughly spherical shaped hole averaging 8 blocks in diameter. This method destroys more blocks per TNT but requires more use from the pickaxe in order to carve the space around the TNT. Since this only creates a single explosion unlike the previous technique, the items dropped from the broken blocks will survive.

This is one of the best ways to get ancient debris, because of it being blast resistant. this will reveal many lava pockets, so it is a good idea to keep a few fire resistance potions on you, you can also use beds, as they explode in the nether when used, but this creates a much larger and more dangerous explosion, as well as setting many of the surrounding blocks on fire.

Silverfish Mining[]

The player can use silverfish to clear a lot of stone away to reveal the valuable stuff. To do this, get a bunch of silverfish in a hole, and position themselves above the hole. Most of the silverfish will go into the stone, but make sure there are at least some left visible. While standing above the leftover silverfish, throw a splash potion of poison, then a splash potion of regeneration immediately after. Every time the poison hurts the silverfish, it will call any nearby silverfish out of the stone, then it will get healed by the regeneration potion, so it can keep getting hurt instead of being pinned at 1 health. Soon, all of the silverfish will come out of the stone, and they can kill them at this point, then mine all of the minerals left behind.

The easiest way to transfer silverfish to different places is by leading them through the Nether. The player can do this by putting a nether portal by a silverfish monster spawner, however they will need a path of blocks they can't enter, and another portal for players, farther away with a different exit. After luring a batch of silverfish through their portal, they go through theirs. The player will have made walls and a trail in advance. The walls and trail contain the silverfish, but lets the player see and follow them without being able to reach them. Two levels with a glass walkway for them above their path can do this, just make sure they can't reach the player's level (and none of the blocks are stone they can enter). Also, they may need to see the player once without glass, so they know where they are. Then lead them to a third portal leading to their mine, and voila, the player have transported them to where they want to mine at.

Wither Mining[]

Another way to get many resources acquired from mining very quickly without having to use up tools or TNT, is to use the wither. The wither, unlike most other mobs, has the ability to break any block that can be mined by the player. In addition, if a block is destroyed by the black or blue skulls of the wither, it will drop itself (see Explosion for more details). However, be very careful when attempting to mine by using the wither when in Survival mode, as the wither has many defenses, and is able to deal a great amount of damage to the player. So, make sure to either have high quality weapons and armor, or make the wither mine so that it is impossible for the wither to attack the player.

Piston Mining[]

Piston mining is a technique for safely extracting small amounts of valuable ores, usually diamonds, and for inserting 'windows' into potentially dangerous spots.

  1. Start by digging a 1×2 hole in a safe spot a few blocks to one side of the target area. If no truly safe spot is available, pick a location where the risk is least.
  2. Place a block and a piston in the hole. Any block moveable by a piston will do. Glass would allow the player to see hazards without triggering them. An efficient method is to place one block of glass, then use 'filler' material for the subsequent blocks.
  3. Dig another hole a few blocks to the other side of the target area, ideally in another safe spot. When doing this, don't forget that the maximum distance a piston can push is twelve blocks in a straight line.
  4. Activate the piston using a redstone torch, lever, button or pressure plate as the player prefers.
  5. Insert another block, re-open the 'receiving hole' if necessary and reactivate the piston.
  6. Repeat until the ore can safely be collected, or the glass block has revealed a hazard or confirmed all is safe. Note that they may need to check several rows before they can be entirely sure there is no danger.
  7. Retrieve the piston for reuse.

This mining method is only practical for collecting very small amounts of ore, but it can be useful for collecting diamonds from dangerous spots or when players suspect a natural hazard is nearby and they want to locate it precisely.

Nether mining[]

Mining in the Nether can be very profitable, because of netherite and nether quartz that can't be found elsewhere, as well as nether gold ore being abundant. However, the Nether is far more dangerous than the Overworld, and ancient debris is extremely rare.

Needed equipment[]

As the nether is an extremely dangerous place, you will need a lot of good equipment, because this will make the endeavor a lot more profitable and safer. The list is in no specific order of importance.

  • Pickaxe
    • It is good to have a diamond or netherite pickaxe, as although nether quartz ore and nether gold ore do not require any specific tier to mine, ancient debris does require at least diamond tier. A good enchantment to have, on top of the usual mending, unbreaking, and efficiency, is fortune, as opposed to silk touch, so that you can repair the pickaxe with experience gained from quartz and gold ore.
  • Armor
    • It is good to have some sort of armor, with at least one piece being gold, to keep piglins from attacking you. Otherwise, it is good to have at least iron tier armor. As usually in the Nether, fire protection is useful. While mining underground, ghasts won't be a threat, but if one is using beds or TNT to mine, blast protection can still be useful.
  • Weapon
    • Weapons are good to have in any situation, but especially so in the nether. As usually, a sword of best material available with good enchantments is recommended; however, fire aspect will be less useful in the Nether as many enemies are immune to fire damage, while looting can be especially valuable. If a trident is used, it should have loyalty, as it can otherwise be hard to retrieve it in Nether's terrain.
  • Food
    • Food is always important for survival, so keep quite a bit on you.
  • Blocks
    • it is good to have blocks on you to be able to cross over large gaps, block any lava pockets you encounter, and tower up to hard to reach places.
  • Fire resistance potion
    • Fire resistance potions are a very useful safety precaution. In the case one would fall in a lava pit or be set on fire, one can drink the potion, which will negate all fire or lava damage. While not necessary, this item is very good to have.

Mining nether quartz and gold[]


When searching for nether quartz and gold, a good way to find a large amount is to just explore, as you wander the nether, you will come across lots of exposed nether quartz and gold ore, you can then mine it. This method is both fast and interesting, but also more dangerous, as compared to mining underground, there will be many hostile mobs, and it will be more likely to fall into lava pits. It is also almost impossible for netherite to generate exposed to air, so it cannot be found this way.

Strip / Branch mining[]

This type of mining can be done at any level, and will mostly get you the same amount of quartz and gold, but this method is a lot more bland, but safer, and can get you ancient debris. This method is done similarly to in the overworld, but is more dangerous as you will run into many little lava pockets.The best way to prevent this is carry a bucket right next to your pickaxe since you can only run into source blocks(if you’re in java, you’ll be able to put it in your offhand).

Ancient debris[]

Ancient debris is used to make netherite. When ancient debris is smelted in a furnace or blast furnace, it becomes netherite scrap. 4 netherite scrap and 4 gold ingots can then be crafted into one netherite ingot.

Strip / Branch mining[]

This method can be used for netherite, and if you are looking for netherite, it is best to do so between y=8 and y=22 as there is a higher concentration of ancient debris between these levels. The method is similar to in the Overworld, but because netherrack is easier to break than stone, it can be instant-mined. This allows for the player to maintain sprint while mining, making the process much faster than in the Overworld. However, the method is also somewhat dangerous, as one will run into many pockets of lava - for this reason, the player should have high-tier armor, possibly with fire resistance, and potions of fire resistance.

TNT mining[]

TNT mining is considered to be one of the best methods for finding ancient debris. Netherrack has a very low blast resistance, which means that TNT mining exposes more area in Nether than in Overworld, while ancient debris, unlike the ores found in Overworld, can't be blown up.

In TNT mining, a tunnel is created around y=15. Once the player has gone far enough, or ran out of TNT, they will go back along the tunnel, placing TNT on the floor every 5 blocks (that is, with 4 blocks between each one), until they get to the beginning, where they will light up the TNT, causing a chain reaction. In the resulting tunnel, there should be exposed ancient debris left intact by the explosions, that can be mined out.

Similarly to branch mining, this method will expose a lot of lava, which will often flow and fill large areas. However, the lava is easily avoided, and won't burn up the ancient debris. TNT mining is also a very expensive method, because for one stack of TNT, 5 stacks of gunpowder and 4 stacks of sand are needed.

A better method is to build world eaters. They are enormous bombing flying machine that will destroy everything under them. However, ancient debris are blast-proof, so a world eater will destroy everything and reveal ancient debris.

Bed mining[]

When a player tries to sleep in the Nether, the bed blows up. Bed mining is similar to TNT mining but instead of TNT, it uses this mechanic. While it has the same pros as TNT mining, beds have a larger explosion than TNT, but most importantly, they are less expensive, which makes them a very popular choice of method for finding ancient debris.

Beds do have the problem of having no fuse time before exploding, making it very likely for the player to take some damage.Furthermore, beds blowing up do not cause nearby beds to explode, meaning each one has to be manually blown up. Beds are also not stackable, which limits the maximum length of mining sessions considerably. This is partially negated by instead carrying wool and planks with you, which are crafted into beds as you go.

Aesthetic Mines[]

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This section is for mines that focus more on aesthetics rather than efficiency.

Vertical design[]


This design consists of a Hub and a Push leading into another Hub.


   B - Block
   _ - Air

Hub: Top view:


Side view:


Each push is basically the design behind it (The side view) dropped a square repeated several times, the amount is dependent on the miner but an even number is preferred due to torch placement. (Discussed later)

The central hub (The first hub made in the mine) will have 4 pushes in each of the cardinal directions, eventually, if players are in need of ores they may choose to go down in one direction until the player have what they need. It is recommended to check the Y-coordinate about now, they may want a push length that will allow them to get to their Y-coordinate value as close as they can to 12. (Lava spawns in caves at 10, and their Y-coordinate is up 2 for the positioning of their head) After the player's decided on the length and finished a push, make another Hub in the same size as above. Continue until they reach the last of their hubs, and they should end it before they hit the bedrock layer, otherwise it won't be very nice looking.

Torch Placement[]

Torch placement is simple in this design. The player will have 8 torches in each hub, on both sides of the bottom of the corners. If the player want, they may add a torch to the center floor to add more light, but it is enough to prevent mobs spawning as it is now.

For every push, put two torches on every other left and right hangs.


After players finished all of the cardinal pushes, they will be wondering what next to do, considering the amount they have mined, they may want a place to store away items, connections are great for this.

Each connection is a hub formed by two of the cardinal branches intersecting, meaning if players went to the first north hub down, they would have to mine one push or hub to the left and connect to it from the first west hub down by pushing right. It's the same as the hub but it leaves two walls with nothing to do, if the player try to continue with them, they will get intersections that are hard to make aesthetic unless the player are looking for a large open mine, or a maze mine. Instead, the player can use it for chests, and it works well for its purpose. Very hard to describe with letters, so here's a picture instead: Picture


After the cardinal directions are done, players have their as many connections as they care for, continue adding onto their bottom hubs, only with straight pushes. The bottom hubs will branch in all directions except backwards, unless the player are going with an open or mine variation, and each of those hubs may spread in the same direction so long as it's not backwards for the original hub. If they positioned well in the first central hub and push size, they will be scraping a long in a fairly wide tunnel along the same height the player find diamonds. It's easy sailing from here on.

Central Drop shaft

Central hub is under an area of flat ground, dig three deep holes where torches will go, ladders go on the bottom and top, torches in the middle, players go above the hub as normal only there will be a 2 high gap under the hangs on this first hub to allow for the ladders as a way up. The player will need the ladders to go all the way down, and such won't have a place for a torch. They can circumvent this by putting them on the middle of part left over at the top of the next section, the lighting is the same and players won't need an extra torch to prevent mobs spawning. This also works particularly well if they want to replace the top with glass.

Open Mine Connections

Same as original, only every connection made splits off in all four directions. It goes up with a 1 wide path in the center in all four directions and the both of the two wide paths go down until they merge, which is when it can do so without getting rid of the upward patch.

There are two variations, one where players will go up when they make a connection, so they will have a stack of hubs in all directions, another where they only dig down in the connections, where they intersect their build the 1 central path down to the hub. The latter is more efficient as all of it will eventually lead to the bottom and therefore be mining ore.

Maze Mine Connections

This is the same as an Open Mine except player's down path is one wide, not their up path. Same two variations, same correlation in efficiency.

Lava lights

Players can replace the torches in the center of the hubs with a piece of glass and lava under it and it gives only one light less, providing that they placed them at all. They can change it for a 3×3 if they feel so inclined and have enough lava.

Drop Shafts

This combines the Central Drop Shaft and optionally the Open and Maze Mine Connections. It requires close tallies if they don't want to combine them though.

At the hub, mine down the same as if they were going to make a Central drop Shaft, but continue until they are on the same level as their next hub, depends on the size of their push, like a 8 push would be 8 blocks down. After they reach the bottom, make another hub in the same style as a Central Drop Shaft. This will require more ladders, so it's not a very good idea if players are short on log, but it allows a certain maze quality.

There are two places where they can put the ladders, but the two per corner type of the Central Drop Shaft style is preferred, however the other style uses less ladders.

The player mine their shafts in the blocks directly north/south/east/west of the center so that they have 4 shafts all the way to the next hub, this require 5 blocks to hang down from the hub, some like it, others don't.

Two variations on top of that, they may use the drop shaft for all hubs, thus any hub with a hub above will be able to ascend, or they can only use the shafts for the central hub, adding 'terraces' to their mine.

After players get down to the bottom level, they may continue to stretch out and connect with the original push/hubs. Once they connectted, they may use the open style, leaving 1 wide path up or the maze, leaving 2×2 wide up.

Other Aesthetic Mine Ideas[]

Central Mine[]

The player should change the rail-torch-rail combination to powered rail-redstone torch-powered rail combination every 34 blocks.

Players will have a central rail system with smaller hallways for pedestrian traffic. On interesting locations, players should add some kind of rail station with access to the rail.

Side Mines[]


(From the top)

Random Mining[]

Mining randomly is very simple: dig, dig, dig wherever and however the player just happen to feel like digging at the moment.

Very simple, and potentially the most rewarding type of mining around: the player can find dungeons, massive cave networks, and maybe the hostile mob base. However, it is also potentially the least rewarding; it's possible to miss all the ores, as this method offers little consistency.

Random mining can very well be the most dangerous method. The player can get lost, mine their way into lava and thus lose their items, into a ravine, into a skeleton monster spawner with 5 skeletons, or even into their own 40 block drop. Alternatively, they could embarrass themselves by mining straight up into a patch of gravel or sand, or flood their mine by digging into the ocean.

That being said, there is one major benefit to random mining; it will confuse potential griefers. Surrounding a main base with all kinds of twisty passages is a viable option, though it won't ultimately stop a determined griefer from finding the player or their base. This was the most used technique in Pocket Edition, before the cave generation.

Space/Portion Mining[]

Not to be confused with Strip Mining; however, this does involve a similar method.

Room Mining[]

This form of mining involves someone to make a hall way and then make a small opening in the wall. From there, one must simply dig out a portion of the block to create a space. This method is repeated many times down the hall on either side to create rooms for various purposes, while finding several ores and valued materials in the process. This method is useful for the creation of houses, barns, indoor-gardens, storages, and in the creation of hard-to-find/secret places as it offers a variety of places one may go to in order to find something, but they may likely give up in the process unless they are determined.

Tunnel Mining[]

This is highly similar to Room Mining, except that instead of building rooms, the player build tunnels. However, this takes much longer to do and tunnels are usually much larger than rooms. Because of this, Tunnel Mining is lesser to be used as the tunnels take up many tools in the process of making them as well as the mining process may dig into a body of water and flood the tunnel. However, if the player wants to make an artificial river for boats, this may not be a problem. Despite the fact that they may yield many resources, players may use up several pickaxes or shovels in the process of making them as well as torches to light up the tunnel. Players may get bored of doing this and may abandon the tunnels while still in the process of making them. Some may not consider beginning construction on future tunnels due to lost supplies and the tunnel not being rewarding enough to continue. This method is useful for making minecart subways, large indoor-gardens, art galleries, tree farms, boat rivers, large barn(s), mazes, doing construction on vertical and horizontal structures, constructing strip mines, and secret/hard-to-find areas by making tunnels that seem to go nowhere.

Clear Mining/Safe Mining[]

The general purpose of Clear Mining (or Safe Mining, whichever one may prefer to call it) is a variation of Box Mining and other simple techniques. A player first finds a suitable area, preferably one block above the bedrock layer so that the player can easily obtain diamonds and other rare minerals. The player must also have at least 5 to 6 stone picks, one iron pick for rare minerals such as gold, and 3-4 shovels for gravel. A sword is optional depending on the players preferred difficulty settings. Once the player has found a suitable and deep area that they are confident in they may either begin or set up a small chamber near the area to store minerals and construct tools to further their mining. To begin, make a simple 1 block wide and 2 blocks high that spans roughly 8-10 blocks in length. Once this has begun, the player then uses their stone picks to mine directly in front of them where their tunnel ends, but, there is a catch. The player does not move once they make their initial 8-10 block tunnel, and mines only the above block of the two block height making a small box, 4 blocks long. Once the player makes a half tunnel 4 blocks long, the turn to their left or right and do the same; not breaking any of the blocks below the first block. (When it is done the concept is much more simple) After the player makes a reversed "T" shape, then the player can start to mine out the remaining areas around the tunnels, only using their reach length to clear away stone and any materials. Once the player has maxed out their reach length, they will be in small "box" that reduces risks of being suffocated by gravel or possibly lava. The player then should have a clear area, and then mines out the remaining second blocks, still avoiding the "edges" of the safety box. Once all materials are mined, the player can then break the box and gather the resources in one quick run. Once the player is done in this, there will of course be small "edges" that they not reach, and these should be mined out making a clear box. To further the effectiveness of this strategy, one may then place torches in the "frontal" corners of the area and repeat the process on each side, however this time, rotating their view to clear away all areas of their reach, so long as they are away from their initial entrance tunnel. The end result should be a very fast, resourceful, and safer approach to mining at bedrock. However, mobs may spawn in areas of the mine that are poorly lit, and lava is a factor, along with tediousness, so the player must make a commitment to a clear mine, leaving when satisfied with their bounty of materials. Like parenthesized above, this strategy is best played out rather than explained.

Amphitheater Mining[]

Start with a basic U-shaped mine, and make an "amphitheater" down the levels until the player have a one-block space. Then, make a doorway ahead to make another amphitheater mine. This is very useful, and the player can even make it decorative by adding staircases as stairs or chairs.

Wanderer mining[]

This is a simple mining technique, but isn't used much because of the risk of getting lost. Start by making a staircase down until the player reach the level where the desired ore is most commonly found, and begin mining. Occasionally change directions and make multiple branches. If there is a rise, plow through it. If there is a fall, bridge it with cobblestone. The point is to cover as much area without changing their Y-coordinate.

Perfectionist Mining[]

This form of mining is relatively simple. Find or make a cave. When the player found ores, dig it out. Then, measure the longest side of the ore. Turn the small hole into a perfect cube and they will probably find more ores.

Shovel Mining[]

Simply create a staircase to the desired depth and make a tunnel to find pockets of dirt or gravel. With a shovel, mine all dirt/gravel and search the created cave. It is very similar to caving, except they are making their own cave. This technique is very useful on older server where all caves had been explored. The advantage is that players don't need to spend too many resources on tools, because they mainly use shovels, a cheap and reasonably fast tool. On the other hand, yields are smaller than from caving or strip mining.

Worst Case Scenarios[]

If the player falls into lava, do not panic; swim upward to get out, then try to get far away from the lava and to water if they can. This way even if they die, their items won't be destroyed by the lava. If they need to heal, eat golden apples or drink some Potions of Healing or Regeneration and hide in a corner/away from mobs, and make sure they use a water bucket if they have one. If the player know they are going to die anyway, press F3 and F2 (and also press fn together if the F2 or F3 button has other functions) to take a screenshot of their coordinates. If they are burning to death, trapped, close to the lava, stand in a corner and encase themselves in a dirt or other hand breakable shell. Once they die, their items will be contained safely in the shell.

If they are trapped in blocks and are suffocating, try to dig looking downwards. This could assist them in getting out of the trapped pit.

If they are fighting and are going to die, press F3 then F2.

Whatever happens, they should look back upon what they did, and analyze how they died, and what they could do to improve.

If their pickaxe breaks and they have stumbled into a cave and they have lost their way, the only option is to punch their way out and this could take a while. If there are any nearby mineshafts, check them out, they can use planks to make a crafting table and tools or there might be a spare iron pickaxe floating around.

If they can, get an ender chest and start to put in their stuff from the most expensive/important to the cheapest/least valuable. When they spawn back to their house, put another ender chest and take out their stuff.

Best Case Scenario[]

Should the player happen to accumulate a large amount of resources, such as, perhaps, 2 stacks of iron ore and 10 diamonds, they may be tempted to delve further into the cavern. Resist this urge and return to their base to empty their loot. Dumping off their goodies instead of trying to explore longer may help in the long run, and will reduce the chance of losing their loot. Having a bed at the base of their mine is also helpful; if the player dies, they will spawn at the base of their mine, hopefully surrounded by their chests full of goodies.

If possible, carry an ender chest with the player to store their valuable resources, or put down a chest where they are at, put their loot in it, and write down the coordinates of the chest. They can come back to the chest later. Find the current coordinates by F3[Java Edition only] or /gamerule showcoordinates true[Pocket Edition only].


When going for a mining trip, make sure that the player take proper precautions to not die because of sand or gravel. Use their best judgement and be careful when digging. When going mining, after they are finished and they make their way back, try to go out the way they came. That way, players know they are safe and there is no risk of lava, water, gravel, or sand falling on them and killing them. Digging a new shaft to escape the underground could result in sand falling on them when it turns out they dug their exit below a desert biome, or they could be drowned when the entire ocean floods their exit shaft. If players do get lost, they can dig up in a stairs pattern so that sand and gravel won't kill players and they won't be drowned if water comes through. If gravel does happen to fall on them, do not panic and immediately hold down the left mouse button to dig the gravel out. This will save themselves from suffocating.

Stairs pattern: A=Airspace B=Block


Never take valuable items when going mining. The player don't want to delve into dangerous caves while carrying tons of iron and diamonds, for if they lose them while mining, they will be sorry. Carry more supplies for longer trips, but don't carry more than they can afford to lose to lava. Normally, they will want to use stone pickaxe for economy, but carry at least one iron pick for advanced ores (gold, redstone, and of course diamond). If they have tons of iron and are impatient, they might use iron pickaxe in general, but while those are faster, they only last twice as long (block-wise) as stone tools, and they will be going through a lot of pickaxe regardless. Take a diamond pickaxe if they want to be fast and efficient for its durability, or to collect some obsidian. Make sure to bring a sword, or at the very least, a bow and some arrows.

Supplies to bring while mining: Crafting table, furnace, sticks, cobblestone, water bucket, picks, swords, food, armor and fishing rod.

Mine Defense[]

One method for defending a mine is a tunnel collapse system. This essentially has the miner press a button to retract sticky pistons in the walls, pulling torches off the walls. These torches are supporting sand or gravel in the roof, preventing it from falling. When the sticky pistons retract, the torches are no longer attached to the walls, and so they disappear. This allows the sand or gravel to fall, blocking off the tunnel. This can be used in a network style mine to block off the assaulted tunnels while still allowing movement past the blockages. It can also be used to trap assaulting mobs in a "Quarantine Area" and prevent them getting loose in the mine.