πΌΠΠΎΡΡΡΠ΅Π»Ρ Π’ΠΎΠΏ-25 Π½Π° 7 ΠΌΠ°ΡΡΠ°: -4,31%
πΠΡΡΡΡ ΠΊΡΠΈΠΏΡΠΎΠ²Π°Π»ΡΡ:
1 BTC (#bitcoin): $10 818,80 (-4,68%)
2 ETH (#ethereum): $813,88 (-4,18%)
3 XRP (#ripple): $0,9231 (-4,25%)
4 BCH (#bitcoin-cash): $1 201,89 (-4,02%)
5 LTC (#litecoin): $198,02 (-5,11%)
6 ADA (#cardano): $0,2791 (-5,65%)
7 NEO (#neo): $110,82 (-2,40%)
8 XLM (#stellar-lumens): $0,3358 (-6,78%)
9 XMR (#monero): $353,30 (-3,09%)
10 EOS (#eos): $7,27 (-8,72%)
11 MIOTA (#iota): $1,69 (-10,30%)
12 DASH (#dash): $568,76 (-4,94%)
13 XEM (#nem): $0,3375 (-4,10%)
14 TRX (#tron): $0,0441 (-5,24%)
15 ETC (#ethereumclassic): $25,05 (-7,67%)
16 VEN (#VeChain): $4,91 (6,42%)
17 USDT (#Tether): $1,00 (0,22%)
18 QTUM (#qtum): $24,90 (-6,47%)
19 NANO (#RaiBlocks): $13,32 (-6,74%)
20 LSK (#lisk): $17,03 (-6,17%)
21 BTG (#bitcoin-gold): $103,06 (-5,78%)
22 OMG (#omisego): $16,46 (-2,88%)
23 ICX (#icon): $3,37 (-4,85%)
24 ZEC (#Zcash): $379,22 (-1,98%)
25 DGD (#DigixDAO): $479,10 (-4,39%)
π·πΊUSD/RUB: 56,50
πΠΡΡΡΡ ΠΊΡΠΈΠΏΡΠΎΠ²Π°Π»ΡΡ:
1 BTC (#bitcoin): $10 818,80 (-4,68%)
2 ETH (#ethereum): $813,88 (-4,18%)
3 XRP (#ripple): $0,9231 (-4,25%)
4 BCH (#bitcoin-cash): $1 201,89 (-4,02%)
5 LTC (#litecoin): $198,02 (-5,11%)
6 ADA (#cardano): $0,2791 (-5,65%)
7 NEO (#neo): $110,82 (-2,40%)
8 XLM (#stellar-lumens): $0,3358 (-6,78%)
9 XMR (#monero): $353,30 (-3,09%)
10 EOS (#eos): $7,27 (-8,72%)
11 MIOTA (#iota): $1,69 (-10,30%)
12 DASH (#dash): $568,76 (-4,94%)
13 XEM (#nem): $0,3375 (-4,10%)
14 TRX (#tron): $0,0441 (-5,24%)
15 ETC (#ethereumclassic): $25,05 (-7,67%)
16 VEN (#VeChain): $4,91 (6,42%)
17 USDT (#Tether): $1,00 (0,22%)
18 QTUM (#qtum): $24,90 (-6,47%)
19 NANO (#RaiBlocks): $13,32 (-6,74%)
20 LSK (#lisk): $17,03 (-6,17%)
21 BTG (#bitcoin-gold): $103,06 (-5,78%)
22 OMG (#omisego): $16,46 (-2,88%)
23 ICX (#icon): $3,37 (-4,85%)
24 ZEC (#Zcash): $379,22 (-1,98%)
25 DGD (#DigixDAO): $479,10 (-4,39%)
π·πΊUSD/RUB: 56,50
What is PoW (Proof of Work) ?
#Proof of Work (#PoW) is a consensus #mechanism used by many #blockchain networks to validate transactions and add new blocks to the #chain. In a PoW system, nodes on the #network compete to solve complex mathematical problems, with the first node to #solve the problem being rewarded with a block of #transactions that is added to the blockchain.
The process of solving the #mathematical problem requires significant #computational power, which is provided by the #nodes on the network. Nodes that participate in the PoW process are called #miners, and they use specialized hardware and software to perform the calculations necessary to #solve the problem.
Once a miner successfully solves the problem, they #broadcast the solution to the network, along with a list of valid transactions. Other nodes on the network then validate the solution and the transactions, and if everything is correct, the new #block is added to the blockchain.
PoW systems are designed to be #secure and resistant to attacks. However, PoW can be resource-intensive and require a significant amount of #energy to operate.
Some well-known #cryptocurrencies that use PoW include #Bitcoin, #Ethereum, and #Litecoin. These networks rely on PoW to maintain the integrity of the blockchain and ensure that transactions are processed in a secure and #decentralized manner.
#Proof of Work (#PoW) is a consensus #mechanism used by many #blockchain networks to validate transactions and add new blocks to the #chain. In a PoW system, nodes on the #network compete to solve complex mathematical problems, with the first node to #solve the problem being rewarded with a block of #transactions that is added to the blockchain.
The process of solving the #mathematical problem requires significant #computational power, which is provided by the #nodes on the network. Nodes that participate in the PoW process are called #miners, and they use specialized hardware and software to perform the calculations necessary to #solve the problem.
Once a miner successfully solves the problem, they #broadcast the solution to the network, along with a list of valid transactions. Other nodes on the network then validate the solution and the transactions, and if everything is correct, the new #block is added to the blockchain.
PoW systems are designed to be #secure and resistant to attacks. However, PoW can be resource-intensive and require a significant amount of #energy to operate.
Some well-known #cryptocurrencies that use PoW include #Bitcoin, #Ethereum, and #Litecoin. These networks rely on PoW to maintain the integrity of the blockchain and ensure that transactions are processed in a secure and #decentralized manner.
What is Core Wallet ?
A #Core wallet refers to the original software wallet implementation of a cryptocurrency. It is typically developed and maintained by the core developers or the official team behind the #cryptocurrency. Core wallets provide users with full control over their funds and offer features such as creating new addresses, sending and receiving transactions, and participating in the cryptocurrency's network consensus.
Core #wallets often require users to download and synchronize the entire blockchain of the respective cryptocurrency, which can take time and require significant storage space on the user's device. They are considered to be more secure than other types of #wallets, such as web wallets or mobile wallets, as they do not rely on third-party services or online platforms.
Examples of core wallets include #Bitcoin Core, #Ethereum Core (Geth), and #Litecoin Core. These wallets are typically designed for advanced users who prefer to have direct control over their cryptocurrency holdings and actively participate in the network.
A #Core wallet refers to the original software wallet implementation of a cryptocurrency. It is typically developed and maintained by the core developers or the official team behind the #cryptocurrency. Core wallets provide users with full control over their funds and offer features such as creating new addresses, sending and receiving transactions, and participating in the cryptocurrency's network consensus.
Core #wallets often require users to download and synchronize the entire blockchain of the respective cryptocurrency, which can take time and require significant storage space on the user's device. They are considered to be more secure than other types of #wallets, such as web wallets or mobile wallets, as they do not rely on third-party services or online platforms.
Examples of core wallets include #Bitcoin Core, #Ethereum Core (Geth), and #Litecoin Core. These wallets are typically designed for advanced users who prefer to have direct control over their cryptocurrency holdings and actively participate in the network.