Bitcoin Sign up or log in to customize your list._ Here's how it works: Anybody can ask a question Anybody can answer The best answers are voted up and rise to the top up vote 0 down vote favorite This question already has an answer here: Why is my Bitcoin wallet always out of sync?It's 4 years out of date.I have tried using a different network.Don't know what to do but would appreciate help.synchronization marked as duplicate by Nick ODell, Nate Eldredge, George Kimionis, Murch This question has been asked before and already has an answer.If those answers do not fully address your question, please ask a new question.up vote 1 down vote The official Bitcoin software has to download the details of every single address, transaction and confirmation block to be synchronised.If you've just installed it then it's going to take you 1-5 days to download that data depending on your Internet and computer speed (just leave it running on your computer).

There are other options to avoid this but as a rule of thumb it's more secure to use a "full client" such as the official software.Once it has sync'd every time you use it after that it will only need to sync the data since it last sync'd so is much, much quicker.Not the answer you're looking for?Browse other questions tagged synchronization or ask your own question.nning a “full node” can easily take more than a week to sync on a quad-core computer with fast Internet connection and SSD.If you have a very old computer, it may never sync because the files seem to get corrupted often after a week or two of trying.Therefore I highly recommend to not use Bitcoin Core as a wallet until after you know what you are doing.Bitcoin Core offers better privacy and security at a very high cost (in terms of syncing).Users who simply want to try out bitcoin should not use Bitcoin Core, but rather start with a fast, lightweight client like:Or just use it on a mobile device, eg:You can explore Cold Storage options if you really need strong security, but do that after using a lightweight option with small amounts and learning about how Bitcoin works.For cold storage, here are some good options: - The first Open, secure, crowdsourced hardware wallet.

- The has some elegant and unique features (eg: on-device PIN input, FIDO support) and is less expensive than the Trezor.- Expensive, but seems about as good as Trezor, a few novel improvements made via large screen.- BIP38 Paper wallet.See "Going offline" instructions here: Print Offline Tamper-Resistant Addresses.Offline-created cold-storage, encrypted paper wallets are good (if done right) and can be made for free.They work great for savings, but are more difficult to spend from and should never be reused after being spent once.You can even create a cold-storage key for ultimate security.sydney bitcoin exchangeThe coins are on your address, you can see that using a block explorer like blockchain.info.bitcoin robin hoodYou need to be synced, because your wallet has to know the transaction, to display and show the funds in it.bitcoin core rpm

I use a limited bandwidth internet connection, and I use electrum.Electrum is a wallet that connects to servers that have the blockchain and are always synced.If your wallet takes a lot of time to sync, then think about using electrum.yes.and it doesn’t matter if you run bitcoin core or not (in fact there are many alternative bitcoin clients which are arguably better than core).You can always use any old blockchain explorer to confirm that the coins are already sent and recieved.giá bitcoin hôm nayTry Wallet by BlockTrail - putting you in control of your bitcoin or Bitcoin Block Explorer - Blockchain.infoYou don’t need your core node to be in sync.bitcoin hoodieIt doesn’t matter that your bitcoin device / core isn’t up to date, as long as one of the devices involved in the transaction was online and was able to broadcast the transaction.There are many online sites you can check to confirm that it was sent and processed into the blockchain.bitcoin baba

You just have to wait a little while (10–30 minutes, but most recommend an hour or so to be sure).By then, if you still can’t see the transaction listed online against your wallet (from any bitcoin monitoring site), you won’t receive it.The synchronization and the wallet function are very different in the Bitcoin Core.So, you shouldn’t have problems to use.I speaking for personal experience.Bitcoin can be coldly unforgiving of mistakes, and nowhere is this better demonstrated than with change addresses.Although change addresses provide a key privacy tool, they can also lead to confusion, loss, or theft when not understood.This article explains how to safely use one of Bitcoin's least understood features.It ends with a list of common pitfalls and ways to avoid them.Imagine paying for groceries with a debit card.The checker totals the amount due and you swipe your card as usual.However, you notice the payment terminal is asking for all of the money in your account.The checker smiles, explaining that this is part of your bank's new rewards program.

You have three options: (1) send the change back to your current account; (2) send the change to a newly-created bank account; or (3) say nothing and send the change to the payment terminal company.Many Bitcoin users are surprised to find eerie similarities between this diabolical debit card and the way transactions seem to work.Thinking about Bitcoin in terms of past experiences with online banking and debit cards can lead to problems.Fortunately, an older payment method offers better insights into how Bitcoin works and why.The similarities between Bitcoin and cash run deep.In his whitepaper, Satoshi Nakamoto even described Bitcoin as an “electronic cash system”.Understanding the close connection between Bitcoin and cash is the key to understanding change addresses.Imagine needing to track different pools of paper bills, maybe as part of a collection drive.You might use envelopes to keep the bills physically separate from each other - a “cash envelope”.A Bitcoin address can be thought of as the digital equivalent of a cash envelope.

Like a cash envelope, an address can hold zero or more units of electronic cash.Instead of paper bills, Bitcoin uses the electronic equivalent - “unspent outputs”.The balance of any address can be found by summing the value of each unspent output it contains, just like the amount held in a cash envelope can be found by counting the values of all bills.The purpose of the Bitcoin network is to enable the regulated transfer of unspent outputs between addresses through transactions.Imagine that Alice, who owns an address containing one unspent output worth 10 bitcoin (BTC), wants to pay Bob 10 bitcoin.Alice moves the funds with a transaction sending her single unspent output to Bob‘s empty address.In doing so, Alice’s address balance falls to zero and Bob's address balance rises to 10 bitcoin.After the transaction, Bob can give the unspent output he received from Alice to someone else.However, Alice will neither be allowed to take back the unspent output she transferred, nor will she be able to spend it again.

A few days later, Alice wants to pay Bob 5 BTC from an address containing a single output valued at 10 BTC.Alice has a problem: she needs to pay Bob, but she doesn‘t want to give him the entire 10 BTC.Alice wouldn’t be allowed to rip a $10 bill in half to pay Bob $5.Likewise, Bitcoin requires Alice to send the network her entire 10 BTC unspent output - intact.To resolve this dilemma, Alice uses a transaction that splits her payment, a feature fully supported by Bitcoin.One part of the transaction sends 5 BTC to Bob's address and the other returns 5 BTC back to her own.In a similar way, Alice could break a $10 bill at the bank into two $5 bills, giving one to Bob and keeping one for herself.Over time, Alice's address accumulates unspent outputs from people who have paid her.Her address now contains unspent outputs valued at 20 BTC, 10 BTC, and 5 BTC.Once again, it‘s time for Alice to pay Bob - this time 8 BTC.Alice creates a transaction that splits her 10 BTC unspent output, sending 8 BTC to Bob’s address and returning 2 BTC to her own as change.

Alice‘s address balance falls to 27 BTC and Bob’s address balance rises to 8 BTC.In the previous examples, Alice directed change into the same address she spent from.Although this decision simplified accounting, it unfortunately reduced Bob's privacy as well as her own.By design, every Bitcoin transaction remains permanently viewable in a global public ledger called the “block chain”.Privacy depends on the strict separation between addresses and personal identities, a model referred to as pseudonymity.Any observer capable of linking Bitcoin addresses to personal identities can begin to draw conclusions about money transfers between people.Users make this job more difficult by sending change to newly-created addresses.To see why, imagine a transaction that sends funds from Address A to Address B. If change is returned to Address A, the block chain clearly reveals that the person controlling Address A paid the person controlling Address B.The same reasoning holds if two or more addresses are involved.

Any transaction involving Address A as a sender reveals the receiving address unambiguously.Should the identity of the person controlling either receiving or payment addresses become known, the identities of the other parties could become known as well.Now imagine that Address A initiates a payment to B, but this time directs change to a newly-generated change address C. Without knowing which address receives change, all we can deduce is that a transaction split Address A's balance between Addresses B and C. The identity of the person controlling Addresses B or C may or may not be the same as the identity of the person controlling Address A. Given another transaction from Address C, the picture becomes even murkier.Which of the transfers represent payments and which represent the receipt of change?An observer trying to link personal identities to addresses must gather more secondary information and expend more resources when all parties send change to newly-created addresses.Coordinating multiple addresses is a complicated task.

Wallet software frees the user from the need to do this manually.Although change addresses play a key role in improving privacy, wallet developers can implement this feature in a number of ways.Four strategies are currently in use, each with its own implications for privacy and security.Let's now consider ways that misunderstanding change addresses, combined with semi-manual address management, can lead to loss or theft of funds.Incorrect use of Bitcoin change addresses account for many cases of loss or theft of funds.Here are some disaster scenarios and ways to avoid them.Understanding the importance of backups, she created an encrypted wallet backup long ago and stored it in a safe place.After making dozens of transactions with Bitcoin-Qt, Alice's hard drive crashed.Alice bought a new hard drive and then re-installed Bitcoin-Qt on it.She then restored her wallet backup.To her horror, Alice discovered the restored wallet was empty.Explanation: Alice generated enough change addresses to overflow the original pool of 100.

On the 100th spending transaction, Bitcoin-Qt moved Alice's change (which happend to be her entire balance) into an address not in the backup.Restoring the backup only restored empty addresses.Recovery: Even if a hard drive can't boot an operating system, individual files can still be recovered.Using data recovery tools, Alice may be able to salvage the Bitcoin-Qt wallet from the faulty hard drive, and with it her lost funds.Bob uses Electrum to send infrequent bitcoin payments.Worried about possible theft, he wanted a way to keep an eye on his bitcoin balance from one of his many devices.Bob decided on blockchain.info to monitor address activity.Bob‘s Electrum wallet contained several addresses, but only one of them held bitcoin (0.3 BTC).Assuming this was the only address he’d be using, Bob pasted it into the blockchain.info search window and bookmarked the resulting page.A few weeks later, Bob made a 0.2 BTC payment to Overstock from his Electrum wallet.After receiving his merchandise, Bob decided to check his balance with blockchain.info.

Disturbingly, Bob discovered that part of his Overstock payment was transferred to an unknown address.Thinking that his computer running Electrum had been compromised, Bob re-formated the hard drive.Explanation: Although it may look to Bob as if an eavesdropper changed his transaction before it was sent to Overstock, he‘s instead seeing the result of normal wallet operation.Electrum sent the change from Bob’s transaction to one of its deterministically-generated change addresses.This cleared the balance from the sending address, the only one Bob was monitoring.Recovery: Electrum encourages the storage of its 12-word address generation seed in a safe location.Should Bob still have access to the seed, he can re-generate his old wallet and recover the change from the Overstock transaction.Carlos is a saver.He didn't do anything with Bitcoin since then.One day Carlos noticed a deal on new laptops at Overstock and decided to pay using one of his saved bitcoins.But Carlos had a problem: he needed to get his paper wallet into a software wallet to pay Overstock.

Carlos downloaded MultiBit and imported his paper wallet's private key.After paying Overstock, he exited the program.Carlos was worried about leaving any trace of his private key on his computer, so he securely deleted MultiBit and its data directory.He then returned his paper wallet to its safe location.After a few weeks, Carlos checked his paper wallet's balance.To his shock, the balance read zero.Nineteen bitcoins were sent to an unfamiliar address on the same day as the Overstock payment.Explanation: Carlos suspects foul play, but he's actually seeing the result of normal wallet behavior.The 19 missing bitcoins were sent to a change address, leaving his paper wallet empty.Recovery: In securely deleting the MultiBit data directory, Carlos lost any chance of recovering the missing funds.Dave runs Bitcoin-Qt on two computers, a laptop and a desktop in his garage.Wanting to use both computers to make payments, Dave copied a clean wallet.dat backup file from the laptop to the desktop.After making many payments without a problem from both computers, Dave noticed something odd one day.

His laptop wallet showed a zero balance, but his desktop wallet showed the correct balance.Explanation: Dave‘s computer network was not compromised, nor did he uncover a bug in Bitcoin-Qt.Instead, his copy of Bitcoin-Qt running on the desktop used the last available pool address held jointly with the laptop.On his last transaction, Dave’s change was sent to an address unknown to the laptop.Recovery: Back up the wallets on both the laptop and the desktop.Export all private keys from both computers, and sweep them into a new wallet.If sharing wallets is critical, don't continue using Bitcoin-Qt.Frank received a paper wallet containing 2 BTC as a gift at a company event.Eager to see how Bitcoin works, he installed MultiBit and imported the paper wallet's private key.Not seeing a need to keep the paper wallet, Frank threw it into the recycling bin at his office.Over time, Frank depleted his Bitcoin funds.To re-fund his wallet, Frank bought an additional 2 BTC from Coinbase and then transferred them into his MultiBit wallet.

Shortly thereafter, Frank bought a set of sheets from Overstock for 0.1 BTC.Although this payment confirmed without issue, Frank noticed something odd.Without his approval, a second withdrawal was made to an unknown address, emptying his wallet of the remaining 1.9 BTC.Explanation: Although Frank was the victim of theft, the route of attack was not his computer or network.It was the paper wallet he threw into the recycling bin.Unknown to Frank, the paper wallet was taken from the recycling bin by Eve, a dishonest coworker.Eve added the private key to a custom program that automatically detects deposits into a list of watched addresses, and then withdraws them immediately.MultiBit, working as designed, used the imported paper wallet address to receive 1.9 BTC in change from Frank‘s Overstock payment.Eve’s program noticed the transfer and immediately withdrew the funds.Eve pulled off her heist without access to Frank‘s computer, or even knowledge of Frank’s identity.The plan worked because Eve know one of the private keys being used to receive change in Frank's MultiBit wallet.

Recovery: Frank cannot recover the funds, nor is he likely to determine the identity of the thief.Although the examples in the previous section resulted in complete loss of funds, the same mechanisms also allow for partial loss.These conditions were assumed, which may or may not hold at the time a change address problem arises: For example, a single address that receives multiple payments will contain multiple unspent outputs.Likewise, wallet balances can become distributed across multiple change addresses as the user spends funds.Imagine Alice's wallet contains two addresses, Address 1 and Address 2, with a total value of 15 BTC.To make a 6 BTC payment, the wallet chooses a 7 BTC unspent output from Address 1, receiving 1 BTC change into Address 2.As expected, her wallet balance decreases to 9 BTC.Then disaster strikes - Alice's hard drive fails.After installing a new hard drive and restoring her wallet backup, Alice notices something odd.Before the hard drive crash, her wallet balance was 9 BTC.