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2.2 Bitcoin Blockchain: Transaction Structure
Transaction in Bitcoin System
Scenario: Person A wants to send 5 BTC to Person B
Person B shares his address with Person A
Person A creates a transaction message and adds Person B’s address and 5 BTC to it
Person A then signs the transaction with his private key and shares his public key to the network for signature verification
Person A broadcasts the transaction on the Bitcoin network
Double Spending Problem
Spending the same Bitcoins in more than one transaction is called the double spending problem.
Encountering Double Spending in Blockchain
The security measures which prevent double-spending in Blockchain:
Transaction details are sent to all or as many nodes in the network
Blockchain is constantly growing, and each peer maintains a copy of the Blockchain
Blockchain ensures that any modification in the block will lead to recomputing of the following blocks
Anyone can validate the transactions and this validation prevents double spending
Pseudonymity in Bitcoin
Pseudonymity is the near anonymous state in which users have disguised identities and do not disclose their true identities
Bitcoin is a permissionless Blockchain where you don’t need to set up an account
The public and private keys are generated by the wallet
The address acts as an identifier or pseudonym of a user’s transaction
Bitcoin Addresses
The Bitcoin address corresponds to a public key based on ECDSA(Elliptic Curve Digital Signature Algorithm) used in Bitcoin.
Here is a sample Bitcoin address: 1PHYrmdJ22MKbJevpb3MBNpVckjZHt89hz
A wallet can have many such addresses and can be used for transactions
Bitcoin Transactions: UTXOs UTXO or Unspent Transaction Output is the fundamental building block of Bitcoin.
Bitcoin Transaction Structure
A Bitcoin transaction has three pieces of information:
Input: This is a record of which Bitcoin address was used to send the Bitcoins to a receiver in the first place
Amount: This is the number of Bitcoins that the sender sends to the receiver
Output: This is sent to the sender’s address as a change
Bitcoin Transactions and Input/Output
Transaction structure in Bitcoin reflects double entry bookkeeping
2.2 Bitcoin Blockchain: Transaction Structure
Transaction in Bitcoin System
Scenario: Person A wants to send 5 BTC to Person B
Person B shares his address with Person A
Person A creates a transaction message and adds Person B’s address and 5 BTC to it
Person A then signs the transaction with his private key and shares his public key to the network for signature verification
Person A broadcasts the transaction on the Bitcoin network
Double Spending Problem
Spending the same Bitcoins in more than one transaction is called the double spending problem.
Encountering Double Spending in Blockchain
The security measures which prevent double-spending in Blockchain:
Transaction details are sent to all or as many nodes in the network
Blockchain is constantly growing, and each peer maintains a copy of the Blockchain
Blockchain ensures that any modification in the block will lead to recomputing of the following blocks
Anyone can validate the transactions and this validation prevents double spending
Pseudonymity in Bitcoin
Pseudonymity is the near anonymous state in which users have disguised identities and do not disclose their true identities
Bitcoin is a permissionless Blockchain where you don’t need to set up an account
The public and private keys are generated by the wallet
The address acts as an identifier or pseudonym of a user’s transaction
Bitcoin Addresses
The Bitcoin address corresponds to a public key based on ECDSA(Elliptic Curve Digital Signature Algorithm) used in Bitcoin.
Here is a sample Bitcoin address: 1PHYrmdJ22MKbJevpb3MBNpVckjZHt89hz
A wallet can have many such addresses and can be used for transactions
Bitcoin Transactions: UTXOs UTXO or Unspent Transaction Output is the fundamental building block of Bitcoin.
Bitcoin Transaction Structure
A Bitcoin transaction has three pieces of information:
Input: This is a record of which Bitcoin address was used to send the Bitcoins to a receiver in the first place
Amount: This is the number of Bitcoins that the sender sends to the receiver
Output: This is sent to the sender’s address as a change
Bitcoin Transactions and Input/Output
Transaction structure in Bitcoin reflects double entry bookkeeping
NoteStudied by 325 peopleNoteStudied by 42 peopleNoteStudied by 27 peopleNoteStudied by 302 peopleNoteStudied by 11 peopleNoteStudied by 14 people