#HARD/BTC cleared liquidity below the falling wedge support and has done breakout after a long downtrend. Now it's ready to take off 🚀
Trading Crypto Guide ™
#HARD/BTC BUY/LONG CALL Lying above strong support . RSI is showing bullish divergence. EMA'S are acting as a solid support. Stochastic is giving a buying signal.Expecting a big upward move from here. Targets: 1182-1375-1765-2000 satoshi Stop if 1D close…
#HARD quickly move higher and hita the 1st target of 1182 Satoshi, which is nearly 15% in profits. I hope you took some profits right there.💪
Trading Crypto Guide ™
#HARD/USDT BUY/LONG CALL Lying above strong support. EMA'S are also acting as a support. MACD crossover is showing bullish momentum. It will pump hard from here 🚀 Targets: $0.2796-0.3895-0.5175-0.6285 Stop if 1D close below $0.1901
#HARD slowly moved higher and hits the 1st target. Price made a high of $0.307, which is 25.7% in profit. We recommend to book some profit now and trail the stops.
Trading Crypto Guide ™
#HARD/BTC BUY/LONG CALL Lying above strong support . RSI is showing bullish divergence. EMA'S are acting as a solid support. Stochastic is giving a buying signal.Expecting a big upward move from here. Targets: 1182-1375-1765-2000 satoshi Stop if 1D close…
#HARD/BTC BUY/LONG CALL
Lying above strong support . RSI is showing bullish divergence. EMA'S are acting as a solid support. Stochastic is giving a buying signal.Expecting a big upward move from here.
Targets: 1281-1475-1855-2100 satoshi
Stop if 1D close below 1018 satoshi
Lying above strong support . RSI is showing bullish divergence. EMA'S are acting as a solid support. Stochastic is giving a buying signal.Expecting a big upward move from here.
Targets: 1281-1475-1855-2100 satoshi
Stop if 1D close below 1018 satoshi
#HARD/USDT BUY/LONG CALL
Lying above strong support. EMA'S are also acting as a support. MACD crossover is showing bullish momentum. It will pump hard from here 🚀
Targets: $0.3033-0.3475-0.3895-0.4465
Stop if 1D close below $0.2376
Lying above strong support. EMA'S are also acting as a support. MACD crossover is showing bullish momentum. It will pump hard from here 🚀
Targets: $0.3033-0.3475-0.3895-0.4465
Stop if 1D close below $0.2376
Trading Crypto Guide ™
#HARD/BTC BUY/LONG CALL Lying above strong support . RSI is showing bullish divergence. EMA'S are acting as a solid support. Stochastic is giving a buying signal.Expecting a big upward move from here. Targets: 1281-1475-1855-2100 satoshi Stop if 1D close…
#HARD/BTC explosive breakout of falling wedge after hunting stops below the trendline support, now bulls are ready to send it to mars 🚀
What is Proof of Space ?
Proof of Space (#PoS) is a consensus #algorithm used in some cryptocurrencies to validate transactions and add new blocks to the blockchain. It is a type of proof-of-resource consensus #mechanism, similar to Proof of Work (#PoW) and Proof of Stake (#PoS), or Proof of Capacity (PoC), but it uses hard disk space as the resource instead of computing power or #stake.
In #PoS, participants contribute their unused hard disk space to the network, and the space is used to generate #cryptographic hashes. The more space contributed, the #higher the chance of being selected to validate transactions and earn #block rewards. To participate in the consensus process, participants must first allocate a certain amount of disk #space and generate a proof that they have stored a specific set of data on that space. This proof is then validated by the network, and the participant is added to a #pool of eligible validators.
Once a participant is selected to validate #transactions and add a new block to the blockchain, they must provide a valid #proof of space for the block to be accepted by the #network. The process of generating a valid proof of space typically requires less energy and computational resources compared to PoW, as it relies primarily on the #storage of data on hard drives.
So, What the Difference between the Proof of Stake and Proof of Space ?
In #PoC, #miners create plots, These plots are stored on the miner's hard drive. When a new #block is to be created, miners use their plots to find the solution to a #mathematical problem, and the miner who finds the solution first gets to create the next #block and receive a #reward in the form of #cryptocurrency BUT in Proof of Stake, It uses #hard disk space as the resource instead of #computing power or #stake.
Proof of Space (#PoS) is a consensus #algorithm used in some cryptocurrencies to validate transactions and add new blocks to the blockchain. It is a type of proof-of-resource consensus #mechanism, similar to Proof of Work (#PoW) and Proof of Stake (#PoS), or Proof of Capacity (PoC), but it uses hard disk space as the resource instead of computing power or #stake.
In #PoS, participants contribute their unused hard disk space to the network, and the space is used to generate #cryptographic hashes. The more space contributed, the #higher the chance of being selected to validate transactions and earn #block rewards. To participate in the consensus process, participants must first allocate a certain amount of disk #space and generate a proof that they have stored a specific set of data on that space. This proof is then validated by the network, and the participant is added to a #pool of eligible validators.
Once a participant is selected to validate #transactions and add a new block to the blockchain, they must provide a valid #proof of space for the block to be accepted by the #network. The process of generating a valid proof of space typically requires less energy and computational resources compared to PoW, as it relies primarily on the #storage of data on hard drives.
So, What the Difference between the Proof of Stake and Proof of Space ?
In #PoC, #miners create plots, These plots are stored on the miner's hard drive. When a new #block is to be created, miners use their plots to find the solution to a #mathematical problem, and the miner who finds the solution first gets to create the next #block and receive a #reward in the form of #cryptocurrency BUT in Proof of Stake, It uses #hard disk space as the resource instead of #computing power or #stake.
What is Fork in Crypto ?
a #Fork refers to a significant change or divergence in the protocol of a blockchain network. It is a term used to describe the splitting of a #blockchain into two separate paths, each following its own set of rules.
There are two main types of forks: hard forks and soft forks.
#Hard Fork: A hard fork involves a substantial change in the protocol that is not #backward-compatible. It creates a permanent #divergence in the blockchain, resulting in two separate chains. #Nodes or participants who do not upgrade to the new protocol will continue to follow the old chain, while those who adopt the changes will follow the new chain. Hard forks often lead to the creation of new #cryptocurrencies with their own separate blockchain.
#Soft Fork: A soft fork, on the other hand, is a backward-compatible upgrade to the #protocol. It introduces changes that are compatible with the #existing rules, allowing nodes that have not #upgraded to continue validating transactions on the updated blockchain. In a soft fork, the blockchain remains as a single unified #chain, but nodes that have upgraded will enforce additional rules.
a #Fork refers to a significant change or divergence in the protocol of a blockchain network. It is a term used to describe the splitting of a #blockchain into two separate paths, each following its own set of rules.
There are two main types of forks: hard forks and soft forks.
#Hard Fork: A hard fork involves a substantial change in the protocol that is not #backward-compatible. It creates a permanent #divergence in the blockchain, resulting in two separate chains. #Nodes or participants who do not upgrade to the new protocol will continue to follow the old chain, while those who adopt the changes will follow the new chain. Hard forks often lead to the creation of new #cryptocurrencies with their own separate blockchain.
#Soft Fork: A soft fork, on the other hand, is a backward-compatible upgrade to the #protocol. It introduces changes that are compatible with the #existing rules, allowing nodes that have not #upgraded to continue validating transactions on the updated blockchain. In a soft fork, the blockchain remains as a single unified #chain, but nodes that have upgraded will enforce additional rules.