The article provides an in-depth exploration of encrypted facts generated by blockchain technology, emphasizing its ability to surpass existing mechanisms in terms of accuracy, accessibility, and auditability while maintaining immutability. It highlights how blockchain's trust-minimized infrastructure, implemented through cryptographic techniques and decentralized consensus, ensures secure data verification and record-keeping. The discussion extends to the role of cryptographic methods such as hash functions, symmetric and asymmetric encryption, and their applications in blockchain operations like transaction authentication, block creation, and data storage. The article also introduces the concept of Chainlink, a decentralized oracle network, which verifies off-chain data and computations, thereby expanding the scope of encrypted facts beyond the blockchain. It discusses the importance of cryptographic and economic mechanisms in sustaining blockchain's decentralized architecture and the potential for creating a world driven by encrypted facts for more robust and fact-based societal and economic structures.