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--- crypto:bitcoin_guide [2026/01/01 02:01] – created deathrequiem
+++ crypto:bitcoin_guide [2026/01/01 02:38] (current) – deathrequiem
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   * **The Reward**: The first miner to solve the puzzle adds a "block" of transactions to the blockchain and is rewarded with newly created Bitcoin.
   * **Security**: Because every node has a copy of the ledger, any attempt to "fake" a transaction would be immediately rejected by the rest of the network.
+  * **##Bitcoin Mining##**
+To understand Bitcoin mining, it helps to move past the term "mining" and think of it as **competitive bookkeeping**. Mining is the process of updating the Bitcoin ledger (the blockchain) while ensuring everyone agrees on the current state of that ledger. Because there is no bank in charge, the network uses a mechanism called **Proof of Work (PoW)** to keep things secure.
+  * **##The Step-by-Step Process##**
+Here is exactly what happens every 10 minutes in the Bitcoin network:
+  * **The Waiting Room (Mempool)**: When you send Bitcoin, your transaction goes into a digital waiting area called the "mempool." Thousands of transactions wait here to be picked up.
+  * **Grouping into a Block**: Miners pick a bunch of these transactions—usually prioritizing the ones with the highest fees—and bundle them together into a "candidate block."
+  * **The Hashing Competition**: This is where the real "work" happens. Miners must run the block's data through a mathematical function called SHA-256. This function turns the data into a long string of letters and numbers called a hash.
+  * **Finding the Golden Ticket (The Nonce)**: To "win" the block, the hash must start with a specific number of zeros (the "difficulty target"). Miners can't predict what the hash will be, so they change a tiny piece of data called a nonce and try again. They do this trillions of times per second.
+  * **Verification and Reward**: The first miner to find a valid hash broadcasts it to the network. Other computers (nodes) can instantly verify it's correct. The winning miner receives the Block Reward (currently 3.125 BTC as of 2025) plus the transaction fees.
+  * **##The "Gear" of Mining: ASICs##**
+In the early days, you could mine Bitcoin on a home laptop. Today, the math is so difficult that you need specialized hardware called **ASICs** (Application-Specific Integrated Circuits). These are machines designed for one purpose only: guessing Bitcoin hashes as fast as possible.
+  * **##Mining Pools##**
+Because the odds of an individual miner finding a block are extremely low (like winning a global lottery), most miners join Mining Pools. They combine their computing power and split the rewards proportionally based on how much work they contributed.
+  * **##Why Does It Use So Much Energy?##**
+The high energy consumption is a **feature, not a bug**. It is what makes Bitcoin unhackable.
+  * To "fake" a transaction, an attacker would need to control more than 50% of the entire network’s computing power (a "51% attack").
+  * The cost of the electricity and hardware needed to do this is so massive that it's cheaper and more profitable to simply play by the rules and earn the rewards.
+  * **##The Halving##**
+Every 210,000 blocks (roughly every 4 years), the reward given to miners is cut in half. This is called The Halving. It ensures that Bitcoin’s total supply of 21 million is released slowly over time, ending around the year 2140.