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@ -80,7 +80,7 @@ In the following sections we will examine this transaction in more detail. We'll
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((("fractional values")))((("milli-bitcoin")))((("satoshis")))The bitcoin network can transact in fractional values, e.g., from milli-bitcoin (1/1000th of a bitcoin) down to 1/100,000,000th of a bitcoin, which is known as a satoshi. Throughout this book we’ll use the term “bitcoin” to refer to any quantity of bitcoin currency, from the smallest unit (1 satoshi) to the total number (21,000,000) of all bitcoin that will ever be mined.
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====
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((("", startref="UCcoffee02")))((("", startref="Tcoffee02")))You can examine Alice's transaction to Bob's Cafe on the blockchain, using a block explorer site (<<view_alice_transaction>>):
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((("", startref="UCcoffee02")))You can examine Alice's transaction to Bob's Cafe on the blockchain, using a block explorer site (<<view_alice_transaction>>):
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[[view_alice_transaction]]
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.View Alice's transaction on https://blockexplorer.com/tx/0627052b6f28912f2703066a912ea577f2ce4da4caa5a5fbd8a57286c345c2f2[blockexplorer.com]
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@ -96,7 +96,7 @@ https://blockexplorer.com/tx/0627052b6f28912f2703066a912ea577f2ce4da4caa5a5fbd8a
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==== Transaction Inputs and Outputs
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((("transactions", "overview of", id="Tover02")))((("transactions", "overview of", "outputs and inputs")))((("outputs and inputs", "basics of")))Transactions are like lines in a double-entry bookkeeping ledger. Each transaction contains one or more "inputs," which are like debits against a bitcoin account. On the other side of the transaction, there are one or more "outputs," which are like credits added to a bitcoin account. ((("transaction fees")))The inputs and outputs (debits and credits) do not necessarily add up to the same amount. Instead, outputs add up to slightly less than inputs and the difference represents an implied _transaction fee_, which is a small payment collected by the miner who includes the transaction in the ledger. A bitcoin transaction is shown as a bookkeeping ledger entry in <<transaction-double-entry>>.
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((("transactions", "overview of", id="Tover02")))((("outputs and inputs", "basics of")))Transactions are like lines in a double-entry bookkeeping ledger. Each transaction contains one or more "inputs," which are like debits against a bitcoin account. On the other side of the transaction, there are one or more "outputs," which are like credits added to a bitcoin account. ((("fees", "transaction fees")))The inputs and outputs (debits and credits) do not necessarily add up to the same amount. Instead, outputs add up to slightly less than inputs and the difference represents an implied _transaction fee_, which is a small payment collected by the miner who includes the transaction in the ledger. A bitcoin transaction is shown as a bookkeeping ledger entry in <<transaction-double-entry>>.
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The transaction also contains proof of ownership for each amount of bitcoin (inputs) whose value is being spent, in the form of a digital signature from the owner, which can be independently validated by anyone. ((("spending bitcoin", "defined")))In bitcoin terms, "spending" is signing a transaction that transfers value from a previous transaction over to a new owner identified by a bitcoin address.
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@ -106,7 +106,7 @@ image::images/mbc2_0203.png["Transaction Double-Entry"]
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==== Transaction Chains
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((("transactions", "overview of", "transaction chains")))((("chain of transactions")))Alice's payment to Bob's Cafe uses a previous transaction's output as its input. In the previous chapter Alice received bitcoin from her friend Joe in return for cash. That transaction created a bitcoin value locked by Alice's key. Her new transaction to Bob's Cafe references the previous transaction as an input and creates new outputs to pay for the cup of coffee and receive change. The transactions form a chain, where the inputs from the latest transaction correspond to outputs from previous transactions. Alice's key provides the signature that unlocks those previous transaction outputs, thereby proving to the bitcoin network that she owns the funds. She attaches the payment for coffee to Bob's address, thereby "encumbering" that output with the requirement that Bob produces a signature in order to spend that amount. This represents a transfer of value between Alice and Bob. This chain of transactions, from Joe to Alice to Bob, is illustrated in <<blockchain-mnemonic>>.
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((("chain of transactions")))Alice's payment to Bob's Cafe uses a previous transaction's output as its input. In the previous chapter Alice received bitcoin from her friend Joe in return for cash. That transaction created a bitcoin value locked by Alice's key. Her new transaction to Bob's Cafe references the previous transaction as an input and creates new outputs to pay for the cup of coffee and receive change. The transactions form a chain, where the inputs from the latest transaction correspond to outputs from previous transactions. Alice's key provides the signature that unlocks those previous transaction outputs, thereby proving to the bitcoin network that she owns the funds. She attaches the payment for coffee to Bob's address, thereby "encumbering" that output with the requirement that Bob produces a signature in order to spend that amount. This represents a transfer of value between Alice and Bob. This chain of transactions, from Joe to Alice to Bob, is illustrated in <<blockchain-mnemonic>>.
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[[blockchain-mnemonic]]
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.A chain of transactions, where the output of one transaction is the input of the next transaction
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@ -114,7 +114,7 @@ image::images/mbc2_0204.png["Transaction chain"]
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==== Making Change
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((("transactions", "overview of", "making change")))((("change, making")))((("change addresses")))((("addresses", "change addresses")))Many bitcoin transactions will include outputs that reference both an address of the new owner and an address of the current owner, the _change_ address. This is because transaction inputs, like currency notes, cannot be divided. If you purchase a $5 US dollar item in a store but use a $20 US dollar bill to pay for the item, you expect to receive $15 US dollars in change. The same concept applies with bitcoin transaction inputs. If you purchased an item that costs 5 bitcoin but only had a 20 bitcoin input to use, you would send one output of 5 bitcoin to the store owner and one output of 15 bitcoin back to yourself as change (less any applicable transaction fee). Importantly, the change address does not have to be the same address as that of the input and for privacy reasons is often a new address from the owner's wallet.
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((("change, making")))((("change addresses")))((("addresses", "change addresses")))Many bitcoin transactions will include outputs that reference both an address of the new owner and an address of the current owner, the _change_ address. This is because transaction inputs, like currency notes, cannot be divided. If you purchase a $5 US dollar item in a store but use a $20 US dollar bill to pay for the item, you expect to receive $15 US dollars in change. The same concept applies with bitcoin transaction inputs. If you purchased an item that costs 5 bitcoin but only had a 20 bitcoin input to use, you would send one output of 5 bitcoin to the store owner and one output of 15 bitcoin back to yourself as change (less any applicable transaction fee). Importantly, the change address does not have to be the same address as that of the input and for privacy reasons is often a new address from the owner's wallet.
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Different wallets may use different strategies when aggregating inputs to make a payment requested by the user. They might aggregate many small inputs, or use one that is equal to or larger than the desired payment. Unless the wallet can aggregate inputs in such a way to exactly match the desired payment plus transaction fees, the wallet will need to generate some change. This is very similar to how people handle cash. If you always use the largest bill in your pocket, you will end up with a pocket full of loose change. If you only use the loose change, you'll always have only big bills. People subconsciously find a balance between these two extremes, and bitcoin wallet developers strive to program this balance.
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@ -122,7 +122,7 @@ Different wallets may use different strategies when aggregating inputs to make a
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==== Common Transaction Forms
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((("transactions", "overview of", "common transaction forms")))The most common form of transaction is a simple payment from one address to another, which often includes some "change" returned to the original owner. This type of transaction has one input and two outputs and is shown in <<transaction-common>>.
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The most common form of transaction is a simple payment from one address to another, which often includes some "change" returned to the original owner. This type of transaction has one input and two outputs and is shown in <<transaction-common>>.
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[[transaction-common]]
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.Most common transaction
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