Event JSON
{
"id": "cf846e484e6eac9de488193d525ac3d986754bdd650797ad6acac53cbaaa5444",
"pubkey": "7ed7d5c3abf06fa1c00f71f879856769f46ac92354c129b3ed5562506927e200",
"created_at": 1744203616,
"kind": 1,
"tags": [
[
"e",
"0bfb206746cab01cab851b9de58f963f8a9da47b283ba237505f8e3df416a24c",
"",
"root"
],
[
"e",
"51cc20229d9338714cec504ae4503518f1d2ea8cf076dea9f62da5e721f2014c",
"",
"reply"
],
[
"p",
"0018b7ee33fb253843639c62e292fec700a69a93b08ee374c5bda971c9b39564"
],
[
"p",
"e88a691e98d9987c964521dff60025f60700378a4879180dcbbb4a5027850411"
],
[
"p",
"13bc95d921c8b6b26cf35494964daf86f9312fe50924483d266827979d80897d"
],
[
"r",
"https://chem.libretexts.org/Bookshelves/Inorganic_Chemistry/Introduction_to_Inorganic_Chemistry_(Wikibook)/06%3A_Metals_and_Alloys-_Structure_Bonding_Electronic_and_Magnetic_Properties/6.04%3A_Crystal_Structures_of_Metals"
]
],
"content": "Yes, even metals form crystalline structures, often hexagonal, because that's just how spheres stack together.\n\nhttps://chem.libretexts.org/Bookshelves/Inorganic_Chemistry/Introduction_to_Inorganic_Chemistry_(Wikibook)/06%3A_Metals_and_Alloys-_Structure_Bonding_Electronic_and_Magnetic_Properties/6.04%3A_Crystal_Structures_of_Metals",
"sig": "6467d0fb867d527661050c91da437f736efca8ecc7f3c561127c73a261658b4dd46b49945dfa946111c7704de42ae02e812c5b13aab47030b0b0adc6dda828de"
}
