Here you will find answers to the most commonly asked questions.
- 1 General
- 1.1 What are bitcoins?
- 1.2 How are new Bitcoins created?
- 1.3 What's the current total amount of Bitcoins in existence?
- 1.4 How divisible are Bitcoins?
- 1.5 How does the halving work when the number gets really small?
- 1.6 How long will it take to generate all the coins?
- 1.7 If no more coins are going to be generated, will more blocks be created?
- 1.8 But if no more coins are generated, what happens when Bitcoins are lost? Won't that be a problem?
- 1.9 If every transaction is broadcast via the network, does BitCoin scale?
- 1.10 Why do I have to wait 10 minutes before I can spend money I received?
- 1.11 Do you have to wait 10 minutes in order to buy or sell things with BitCoin?
- 2 Economy
- 3 Networking
- 4 Help
- 5 See Also
What are bitcoins?
Bitcoins are the unit of currency of the Bitcoin system. A commonly used shorthand for this is “BTC” to refer to a price or amount (eg: “100 BTC”) A Bitcoin isn't actually a 'thing' you can point at. It is just a number associated with a Bitcoin Address. See also an easy intro to bitcoin.
How are new Bitcoins created?
New coins are generated by a network node each time it finds the solution to a certain mathematical problem (i.e. creates a new block), which is difficult to perform and can demonstrate a proof of work. The reward for solving a block is automatically adjusted so that in the first 4 years of the Bitcoin network, 10,500,000 BTC will be created. The amount is halved each 4 years, so it will be 5,250,000 over years 4-8, 2,625,000 over years 8-12 and so on. Thus the total number of coins will approach 21,000,000 BTC over time.
In addition, built into the network is a system that attempts to allocate new coins in blocks about every 10 minutes, on average, somewhere on the network. As the number of people who attempt to generate these new coins changes, the difficulty of creating new coins changes. This happens in a manner that is agreed upon by the network as a whole, based upon the time taken to generate the previous 2016 blocks. The difficulty is therefore related to the average computing resources devoted to generate these new coins over the time it took to create these previous blocks. The likelihood of somebody "discovering" one of these blocks is based on the computer they are using compared to all of the computers also generating blocks on the network.
What's the current total amount of Bitcoins in existence?
The number of blocks times the coin value of a block is the number of coins in existence. The coin value of a block is 50 BTC for each of the first 210,000 blocks, 25 BTC for the next 210,000 blocks, then 12.5 BTC, 6.25 BTC and so on.
How divisible are Bitcoins?
Technically, a Bitcoin can be divided down to 8 decimals using existing data structures, so 0.00000001 BTC is the smallest amount currently possible. Discussions about and ideas for ways to provide for even smaller quantities of Bitcoins may be created in the future if the need for them ever arises.
How does the halving work when the number gets really small?
The reward will go from 0.00000001 BTC to 0. Then no more coins will likely be created.
The calculation is done as a right bitwise shift of a 64-bit signed integer, which means it is divided by 2 and rounded down. The integer is equal to the value in BTC * 100,000,000. This is how all Bitcoin balances/values are stored internally.
Keep in mind that using current rules this will take nearly 100 years before it becomes an issue and Bitcoins may change considerably before that happens.
How long will it take to generate all the coins?
The last block that will generate coins will be block #6,929,999. This should be generated around year 2140. Then the total number of coins in circulation will remain static at 20,999,999.9769 BTC.
Even if the allowed precision is expanded from the current 8 decimals, the total BTC in circulation will always be slightly below 21 million (assuming everything else stays the same). For example, with 16 decimals of precision, the end total would be 20999999.999999999496 BTC.
If no more coins are going to be generated, will more blocks be created?
Absolutely! Even before the creation of coins ends, the use of transaction fees will likely make creating new blocks more valuable from the fees than the new coins being created. When coin generation ends, what will sustain the ability to use bitcoins will be these fees entirely. There will be blocks generated after block #6,929,999, assuming that people are still using Bitcoins at that time.
But if no more coins are generated, what happens when Bitcoins are lost? Won't that be a problem?
Not at all. Because of the law of supply and demand, when fewer Bitcoins are available the ones that are left will be in higher demand, and therefore will have a higher value. So when Bitcoins are lost, the the remaining Bitcoins will increase in value to compensate. As the value of Bitcoins increase, the number of Bitcoins required to purchase an item decreases. This is known as a deflationary economic model. Eventually, if and when it gets to the point where the largest transaction is less that 1BTC, then it's a simple matter of shifting the decimal place to the right a few places, and the system continues.
If every transaction is broadcast via the network, does BitCoin scale?
Yes. With some modifications to the software, BitCoin nodes could easily keep up with both VISA and MasterCard combined, using only fairly modest hardware (a couple of racks of machines using todays hardware). It's worth noting that the MasterCard network is structured somewhat like BitCoin itself - as a peer to peer broadcast network. Learn more about Scalability.
Why do I have to wait 10 minutes before I can spend money I received?
The reason you have to wait 10 minutes is that's the average time taken to find a block. It can be significantly more or less time than that depending on luck, 10 minutes is simply the average case.
Blocks (shown as "confirmations" in the GUI) are how the BitCoin achieves consensus on who owns what. Once a block is found everyone agrees that you now own those coins, so you can spend them again. Until then it's possible that some network nodes believe otherwise, if somebody is attempting to defraud the system by reversing a transaction. The more confirmations a transaction has, the less risk there is of a reversal. Only 6 blocks or 1 hour is enough to make reversal computationally impractical. This is dramatically better than credit cards which can see chargebacks occur up to three months after the original transaction!
Do you have to wait 10 minutes in order to buy or sell things with BitCoin?
No, it's reasonable to sell things without waiting for a confirmation as long as the transaction is not of high value.
When people ask this question they are usually thinking about applications like supermarkets or snack machines, as discussed in this thread from July 2010. Zero confirmation transactions still show up in the GUI, but you cannot spend them. You can however reason about the risk involved in assuming you will be able to spend them in future. In general, selling things that are fairly cheap (like snacks, digital downloads etc) for zero confirmations will not pose a problem if you are running a well connected node.
Where does the value of Bitcoin stem from? What backs up Bitcoin?
Bitcoins have value because they are accepted as payment by many. See the list of Bitcoin-accepting sites.
When we say that a currency is backed up by gold, we mean that there's a promise in place that you can exchange the currency for gold. In a sense, you could say that Bitcoin is "backed up" by the price tags of merchants – a price tag is a promise to exchange goods for a specified amount of currency.
It's a common misconception that Bitcoins gain their value from the cost of electricity required to generate them. Cost doesn't equal value – hiring 1,000 men to shovel a big hole in the ground may be costly, but not valuable. Also, even though scarcity is a critical requirement for a useful currency, it alone doesn't make anything valuable. For example, your fingerprints are scarce, but that doesn't mean they have any exchange value.
What if someone bought up all the existing Bitcoins?
What if somebody bought up all the gold in the world? Well, by attempting to buy it all, the buyer would just drive the prices up until he runs out of money.
Bitcoin's monetary policy causes a deflationary spiral
See the article Deflationary spiral.
Do I need to configure my firewall to run bitcoin?
Bitcoin will connect to other nodes, usually on tcp port 8333. You will need to allow outgoing TCP connections to port 8333 if you want to allow your bitcoin client to connect to many nodes. Bitcoin will also try to connect to IRC (tcp port 6667) to meet other nodes to connect to.
If you want to restrict your firewall rules to a few ips and/or don't want to allow IRC connection, you can find stable nodes in the fallback nodes list. If your provider blocks the common IRC ports, note that lfnet also listens on port 7777. Connecting to this alternate port currently requires either recompiling Bitcoin, or changing routing rules. For example, on Linux you can evade a port 6667 block by doing something like this:
echo 184.108.40.206 irc.lfnet.org >> /etc/hosts iptables -t nat -A OUTPUT -p tcp --dest 220.127.116.11 --dport 6667 -j DNAT --to-destination :7777 -m comment --comment "bitcoind irc connection"
How does the peer finding mechanism work?
Bitcoin finds peers primarily by connecting to an IRC server (channel #bitcoin on irc.lfnet.org). If a connection to the IRC server cannot be established (like when connecting through TOR), an in-built node list will be used and the nodes will be queried for more node addresses.
I'd like to learn more. Where can I get help?
- Read the introduction to bitcoin
- See the videos, podcasts, and blog posts from the Press
- Read and post on the []
- Chat on one of the [IRC] channels
- Listen to this podcast, which goes into the details of how bitcoin works
This article uses content from the old wiki. The list of contributors to the old page is available here.