Copper Ore

Copper ore is a mineral block found underground.

Deepslate copper ore is the deepslate variant of copper ore, usually found deeper underground.

Natural generation
Copper ore can be generated anywhere on the Overworld in the form of blobs. $$, copper ore tries to generate 6 times per chunk in groups from 0 to 16, in layers &minus;16 to 112, being most common in layers 47 and 48 and less common at the ends. Copper ore can replace stone, granite, diorite, andesite, tuff, and deepslate. Copper ore rarely replaces deepslate and tuff, generating within deepslate and tuff areas of layers 0 to 16. When it is replaced, it becomes the deepslate copper ore.

In dripstone caves biomes, copper ore veins are larger on average, and deepslate ores appear more frequently.

$$, copper ore generate in two batches, the first batch generate anywhere on the overworld biomes except dripstone caves 16 times per chunks in groups from 0 to 16, in layer -16 to 112, being most common in layers 47 and 48 and less common at the ends. the second batch generate only in dripstone caves 16 times per chunks in groups from 0 to 40, in layer -16 to 112, being most common in layers 47 and 48 and less common at the ends. Copper ore can replace stone, granite, diorite, andesite, and deepslate. Copper ore that replace deepslate become deepslate copper ore.

Copper ore generates most abundantly in beach biomes, especially stoney shores with multiple raw copper blocks being common. It can also spawn rare ore veins above Y=0, mixed with granite and the occasional raw copper blocks.

Breaking
Copper ore must be mined with a stone pickaxe or higher, or else it drops nothing.

Breaking copper ore drops 2-5 raw copper, unless mined with a Silk Touch pickaxe. It is affected by Fortune enchantment, dropping up to 20 raw copper, or 7.7 raw copper on average with Fortune III.

Usage
Copper ore is smelted to obtain copper ingots, which are crafting ingredients for copper blocks, spyglasses, and lightning rods. Copper ore does not weather like its block counterpart, though the ore itself shows some oxidization.

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