Frequently asked
questions
What is blockchain?
Question 2
Question 3
Question 4
Question 5
Question 6
Question 7
Question 8
Question 9
Question 10
Question 11
Question 12
Question 13
Question 14
Question 15
Question 16
Question 17
Question 18
Question 19
What is blockchain?
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 2
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 3
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 4
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 5
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 6
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 7
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 8
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 9
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 10
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 11
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 12
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 13
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 14
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 15
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 16
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 17
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 18
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 19
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
What is blockchain?
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 2
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 3
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 4
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 5
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 6
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 7
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 8
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 9
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 10
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 11
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 12
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 13
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 14
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 15
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 16
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 17
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 18
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.
Question 19
A blockchain is a ledger securely replicated across many machines. By distributing the same ledger across hundreds or thousands of machines, blockchains are more resilient to downtime events like power outages, hardware faults, natural disasters, and geopolitical censorship. To form consensus, these machines regularly collaborate to determine which sets of new transactions (“blocks”) are valid. These blocks of transactions link together to form a blockchain.
This technology enables the development of permissionless decentralized applications. In other words, blockchains allow the creation of a new kind of digital application that do not require a central coordinator to operate. Think electronic money without central banks, digital asset trading without centrally-operated stock exchanges, or social network platforms without central administrators.