[{"data":1,"prerenderedAt":-1},["ShallowReactive",2],{"glossary-related-en-orphan-block":3,"glossary-term-en-orphan-block":35},{"items":4},[5,11,17,23,29],{"id":6,"slug":7,"term":8,"shortDefinition":9,"firstLetter":10},"ce33927e-0a72-4330-9722-bd17936a5b44","electricity-cost-per-kwh","Electricity Cost per kWh","Electricity cost per kWh refers to the price a miner pays for each kilowatt-hour (kWh) of electricity consumed by mining equipment. Since Bitcoin mining requires significant computational power, electricity costs are one of the largest ongoing expenses for miners. This cost is typically measured in dollars per kWh and varies depending on the location, electricity provider, and local rates.","E",{"id":12,"slug":13,"term":14,"shortDefinition":15,"firstLetter":16},"81576e78-70ff-448a-82b0-9a8f0623e10b","nonce","Nonce","A nonce is a random value that miners change in order to generate a valid hash in the Bitcoin mining process. It is part of the block header and is adjusted by miners during Proof of Work to meet the network’s difficulty target. The nonce helps miners find a hash that satisfies the conditions set.","N",{"id":18,"slug":19,"term":20,"shortDefinition":21,"firstLetter":22},"7108b9fd-0511-41e0-90b7-a63d37e949ad","uncle-block","Uncle Block","An uncle block is a valid block in Ethereum that is mined but not included in the main blockchain because another block at the same height has already been added. Unlike orphan blocks in Bitcoin, uncle blocks are accepted by the Ethereum network and reward miners with a smaller incentive.","U",{"id":24,"slug":25,"term":26,"shortDefinition":27,"firstLetter":28},"61ac484a-b174-419b-b935-57c3440934ce","renewable-energy-in-mining","Renewable Energy in Mining","Renewable energy in Bitcoin mining refers to the use of sustainable energy sources, such as solar, wind, hydroelectric, or geothermal power, to run mining rigs and operations. By utilizing renewable energy, miners can reduce the environmental impact of their mining activities, lower electricity costs, and improve the long-term sustainability of their operations. The growing adoption of renewable energy is a key step toward making Bitcoin mining more eco-friendly.","R",{"id":30,"slug":31,"term":32,"shortDefinition":33,"firstLetter":34},"88537287-5eec-48a1-a1a3-37bee4f54174","mining-algorithm","Mining Algorithm","A mining algorithm is a set of mathematical rules and processes used by miners to solve cryptographic puzzles and validate transactions within a blockchain network. The mining algorithm dictates how transactions are verified and added to the blockchain, and it is central to the consensus mechanism that ensures the security and integrity of the cryptocurrency network. Bitcoin, for example, uses the SHA-256 algorithm.","M",{"term":36},{"id":37,"locale":38,"slug":39,"term":40,"h1":40,"shortDefinition":41,"simpleExplanationHtml":42,"howItWorksHtml":43,"exampleHtml":44,"contentHtml":45,"aliases":46,"abbreviations":47,"algorithms":48,"faq":49,"seoTitle":65,"seoDescription":66,"status":67,"publishedAt":68,"updatedAt":69},"1364c051-589f-47a8-95be-e219b6df8afc","en","orphan-block","Orphan Block","An orphan block is a block that is valid but is not accepted into the main blockchain because another block at the same height has already been accepted. Orphan blocks occur when two miners find a block at roughly the same time, but only one can be added to the blockchain. ","\u003Cp>An orphan block is a block that gets mined but is not added to the blockchain because another block at the same position (block height) has already been confirmed by the network. It’s like two people racing to finish a task and submitting their results at the same time — only one result will be accepted, and the other one will be left out.\u003C\u002Fp>\u003Cp>This situation can occur when two miners find a solution for the same block number (height) at almost the same time. The network then accepts one block and discards the other as an orphan.\u003C\u002Fp>\u003Cp>While orphan blocks are valid and meet the network’s requirements, they are not part of the longest valid chain, which is the chain that the Bitcoin network follows. Orphan blocks do not receive rewards because they are not included in the main blockchain.\u003C\u002Fp>","\u003Cp>Orphan blocks arise due to the decentralized nature of Bitcoin mining. Miners compete to solve the cryptographic puzzle for the next block. In a decentralized network, it’s possible for two miners to solve the puzzle at almost the same time and broadcast their blocks to the network.\u003C\u002Fp>\u003Cp>The network nodes receive both blocks but can only accept one based on which block is received first. The other block, which is not part of the longest chain, becomes an orphan block.\u003C\u002Fp>\u003Cp>The orphan block is then discarded, and any transactions it contained are returned to the mempool, awaiting inclusion in a future block. The miner who created the orphan block does not receive the block reward since the block was not accepted into the main chain.\u003C\u002Fp>\u003Cp>Orphan blocks are a normal part of the mining process, and while they can be frustrating for miners, they do not represent a security risk to the Bitcoin network.\u003C\u002Fp>","\u003Cp>Let’s imagine two miners, Miner A and Miner B, are both working on solving the next Bitcoin block. Both miners find a solution and broadcast their blocks to the network. The network nodes receive Miner A’s block first and add it to the blockchain.\u003C\u002Fp>\u003Cp>At the same time, Miner B’s block is broadcast to the network. However, because Miner A’s block was already accepted, Miner B’s block is discarded and becomes an orphan block.\u003C\u002Fp>\u003Cp>Miner B’s block is valid, but it doesn’t form part of the longest chain, so it is not included in the blockchain. Any transactions contained in Miner B’s orphan block are returned to the mempool for inclusion in a future block.\u003C\u002Fp>","\u003Cp>Miner B does not receive the block reward, but the miner may still earn transaction fees from any transactions that are included in future blocks.\u003C\u002Fp>",[],[],[],[50,53,56,59,62],{"answer":51,"question":52},"Orphan blocks occur because two miners can solve the same block number (height) at almost the same time. Since only one block can be accepted into the blockchain, the other block becomes an orphan.","Why do orphan blocks occur?",{"answer":54,"question":55},"No, orphan blocks are a normal part of Bitcoin’s decentralized nature. They don’t pose a security threat but can result in lost mining rewards for the miner who creates the orphaned block.","Are orphan blocks bad for the Bitcoin network?",{"answer":57,"question":58},"The transactions in an orphan block are returned to the mempool, where they await inclusion in a future block. These transactions will eventually be processed and confirmed as part of a valid block.","What happens to the transactions in an orphan block?",{"answer":60,"question":61},"Yes, a miner who mines an orphan block does not receive the block reward. However, they may still earn transaction fees from the transactions included in the block, depending on when those transactions are included in a future block.","Does a miner lose money with an orphan block?",{"answer":63,"question":64},"Orphan blocks happen occasionally but are not a frequent occurrence. They are more likely to happen when network conditions are competitive, such as during high transaction volumes or periods of increased mining activity.","How often do orphan blocks happen?","Orphan Block: Definition, Causes, and Impact on Bitcoin Mining","What is an orphan block in Bitcoin? Learn how orphan blocks occur, why they are rejected by the network, and their impact on mining operations.\n","published","2026-04-30T11:14:51.643Z","2026-04-30T11:14:49.726Z"]