Piston

"Pistons push blocks, up to twelve of them in a row, when given a redstone signal. Flip the power on and the piston's head will extend outwards one block for a fraction of a second. Any entities in the path of the head will be pushed along with it, including the player, and if there's a slime block in front of the head then they'll be sproinged off instead. SPROINGGG!"

- Duncan Geere

A Piston is a block capable of pushing movable blocks when given a redstone pulse.

A Sticky Piston can both push and pull movable blocks when given a redstone pulse.

Obtaining
A piston can be broken using any tool with equal efficiency, and will always drop itself.

Natural generation
Three sticky pistons generate as part of each jungle temple.

Usage
Pistons are always placed facing towards the player. When powered, the piston's wooden surface (head) will start extending immediately, and push at most 12 blocks. The extension takes two gameticks, or 1 redstone ticks (0.1 seconds, barring lag). The piston makes a sound that can be heard within a 31x31x31 cube centered on the activating piston. Any entities in the path of the extending head will be pushed with the blocks. If there is no place for the entities to go, the block will push inside the mob, suffocating it if the block is not transparent, if pushed into the eye height of the mob.

When a piston loses power, it will retract by simply pulling its head back. This retraction starts immediately, but lasts for 2 gameticks or 1 redstone ticks (0.1 seconds barring lag). Sticky pistons will also pull the block in front of their head.

Sticky pistons only stick to a block when retracting, so a block next to the piston head can be pushed aside by another piston and sticky pistons cannot hold falling blocks horizontally against gravity. They also don't pull blocks 1 redstone tick (0.1 seconds, barring lag) later after pushing them. This can be done by giving the piston a short pulse, specifically shorter than or equal to two gameticks, or one redstone ticks.

A piston that pushes a slime block will bounce any entity that it displaces in the direction the piston is facing. In addition, when a slime block is moved by a piston, any movable blocks adjacent (not diagonally) to the slime block will also move. See the "usage" section below for more details.

Blocks that stick to walls (such as levers) can be placed on pistons or sticky pistons.

Limitations
Pistons can push most blocks, and sticky pistons can pull most blocks, except those listed in the table below. Sticky pistons will simply leave a block behind if it cannot pull it.

Pistons will not push blocks into the void or beyond the top of the map. They also cannot push more than 12 blocks. In these situations, the piston simply will not extend.

Pistons will not move blocks that are "attached to a block," as they will be detached and drop as an item.

Exceptions

 * : as long as they remain on top of a solid block in their new position, and that block isn't moving at the same time.
 * An exception is when the rail and block supporting it are on two parallel extended pistons at which the rail remains attached. Trying to move both on the same piston using slime blocks does not work, nor does moving them on perpendicular pistons (although the latter will temporarily appear to work because of a bug ).
 * Rails will re-orient themselves after being pushed similar to when placed manually.

Powering pistons


Pistons can be powered in various ways:
 * If a redstone wire is in a line shape towards the piston, as the wire will not automatically curve to the piston.
 * Pistons can be powered by a powered block directly adjacent to them, whether it is strongly powered or weakly powered.
 * Pistons can be powered by a redstone torch directly adjacent to them.
 * Pistons can be powered by any powered block one block above and to the side, including the "activated space" above it (if a piston, both sticky and normal were to be facing up and a Block of redstone on its head, it will extend when powered, but won't retract when the power it receives from the side or back turns off). However, the piston won't extend or retract until it receives a block update. This property is called quasi-connectivity and can be used to make a BUD switch.
 * A repeater cannot transfer power through a piston, as pistons are a transparent block.
 * An upwards-facing piston can't be powered by a block above it, unless it is extended.

Slime blocks
When a slime block is pushed or pulled by a piston, while moving, adjacent blocks will also move with the slime block, unless a non-piston movable block stops the blocks that are "grabbed" by the slime blocks. These blocks may in turn push other blocks, not just the blocks in the line in front of the piston. For example, a Slime Block sitting on the ground will attempt to move the ground block underneath itself, which will in turn have to push additional ground blocks in the direction of motion just as if it were being pushed directly by a piston.

Glazed terracotta is an exception; it will not move when adjacent slime blocks are moved.

The same occurs when a slime block is moved by an adjacent Slime Block. For example, a 2×2×2 cube of Slime Blocks may be pushed or pulled as a unit by a single piston acting on any of the blocks in the cube.

A slime block adjacent to a block that cannot be moved by pistons will ignore the immobile block. But if an adjacent block could be moved but is prevented by the presence of an immobile block, the slime block will be prevented from moving.

Slime blocks are not pulled by a non-sticky piston, nor are they moved if an adjacent (non-Slime) block is moved by a piston.

The maximum of 12 blocks moved by a piston still applies. For example, a 2×2×3 collection of Slime Blocks may be pushed or pulled by a sticky piston as long as no other movable blocks are adjacent to it.

A piston cannot move itself via a "hook" constructed of slime blocks, but self-propelled contraptions can be created with multiple pistons. For that, see the article Tutorials/Flying technologies.

Piston head
The piston head is a technical block used as the second block of an extended piston. A block state defines whether it is a normal or a sticky piston head. It can only be placed using the command, though if not part of a proper piston, it will disappear after receiving any block tick, such as when a block is placed next to it.

Piston extension
The Moving Piston (a.k.a "Block Being Moved By Piston" or simply "block 36") is an unobtainable technical block that contains part of a piston head, and/or part of one or two blocks that the piston is carrying into or out of the grid cell (including blocks carried indirectly via slime blocks). Since moving blocks vary in how much of each grid cell they occupy, they can't be stored as normal blocks and are instead stored as block entities. It is overwritten with air, the piston head or the carried block at the end of the piston stroke; but if it is placed by a command and no piston is connected, it will remain indefinitely.

It is invisible, non-solid, and cannot be broken without the use of commands or TNT. It decreases the light level of light passing through by 1. Although it is non-solid, fluids cannot pass through it. It also prevents players from building at its location. The game treats the block as a stone block when it comes to the player's footstep sounds, and as a Missing Texture block when it comes to the breaking animation.

Block entity
The  technical block has a block entity associated with it that holds additional data about the block. The block's block entity ID is.

Block data
In Bedrock Edition, pistons use the following data values:

Block state
The  and   blocks use following block states:

Trivia

 * When toggled between on and off rapidly with a gravity affected block (such as sand) above it, a piston will eventually break the block, which can be picked up as a resource. However, gravel will never break into flint.
 * Mobs can spawn inside the piston head block.
 * Carpet can be placed on the piston extension block, and will remain even if is replaced with a solid block using.