notabnormal on Nostr: I suspect the smallest scales seem random because we lack the instruments or live at ...
I suspect the smallest scales seem random because we lack the instruments or live at too slow a time interval, etc., to demystify how they work. We'd probably have to slow an atom down many thousands of times past what we can achieve through the coldest temperatures to begin to see the nonrandomness of quantumland.
Published at
2024-09-20 17:24:36Event JSON
{
"id": "d5fc3fc7c485e74369418b348465f3e475c3c98dedcdfad968975439a106c1de",
"pubkey": "7ea235806d61164e9d636ad3addad5fed1a6aae079ea201ade135c3318dbb560",
"created_at": 1726853076,
"kind": 1,
"tags": [
[
"p",
"016e542774ad07178efc49fad67a52c58d773646e4eb46088604a413ce708324",
"wss://relay.mostr.pub"
],
[
"e",
"b3c230d3e9ad8d3cd8d053dbae600303f7cf035509e7a4d3638ab06ff9ab2c30",
"wss://relay.mostr.pub",
"reply"
],
[
"proxy",
"https://nicecrew.digital/objects/fe122d57-703b-46ad-8dea-583ffef368cc",
"activitypub"
]
],
"content": "I suspect the smallest scales seem random because we lack the instruments or live at too slow a time interval, etc., to demystify how they work. We'd probably have to slow an atom down many thousands of times past what we can achieve through the coldest temperatures to begin to see the nonrandomness of quantumland.",
"sig": "167350a70ba1851b1f3b6bd2ce56d5590737050f20755145f2f24668218752ccb4459b96182cb99baf6ce868c4aef2f6f79d2eff8fe4e9b287d1fee185a6e868"
}
