Bitcoin ordinal theory was developed by Casey Rodarmor in 2022 and has been gaining attention for its ability to write data to the Bitcoin blockchain.
At its core, ordinal theory involves assigning a unique number to each satoshi (the smallest unit of Bitcoin) based on its position in the blockchain. One of the fields in the ordinal data is an alphabet letter name, which, when examined closely, reveals a fascinating phenomenon – a form of gematria that connects cosmography and cryptography.
Gematria involves assigning numerical values to words and phrases to uncover hidden meanings and patterns. In the context of Bitcoin ordinal theory, the alphabet letter names assigned to each satoshi can be seen as a form of gematria, where the words and phrases formed by these letters hold significant meaning and context.
The variable block time of Bitcoin, which is determined by factors such as total hashrate and randomness in the proof-of-work hash, adds an extra layer of complexity to the ordinal theory. The timing of the sat words (names) in Bitcoin is outside the control of any entity, making it even more intriguing when correlations and patterns emerge.
A striking example of this phenomenon can be seen in the “zenonzenon” sat and the “bitcointalk” sat, which have been referenced in a previous article. The appearance of these sats, with their corresponding ordinal names, which occurred on specific dates and in relation to specific events, raises questions about the nature of reality and the interconnectedness of Bitcoin and other technologies.
The implications of this phenomenon are profound, raising questions about the interconnectedness of Bitcoin and other technologies. As we explore the realm of Bitcoin ordinal theory, we begin to see a hidden code emerge, one that connects cosmography and cryptography. The alphabet letter names assigned to each satoshi reveal a deeper significance, one that transcends the realm of mere coincidence.
Bitcoin might be a nascent form of looking glass into the cryptographic dimension which transcends conventional spacetime. Modern quantum physics theories seem to support this bold hypothesis.