Community Submission - Author: Henrique Erhardt

In cryptography, the word hash refers to the output produced by a hash function after a piece of data is submitted (mapped) through it. Other than simply hash, the output produced by hash functions may also be referred to as hash value, hash code, or digest. 

To better understand what a hash is, itÔÇÖs worth discussing what are hash functions and how they work.

Hash functions are mathematical algorithms that convert an input value of any size into an output (hash) of fixed size. In most cases, the output consists of a hexadecimal number. This means the hash is often denoted as a combination of numbers (0 to 9) and letters (a to f).

For instance, if we use the word ÔÇťBinanceÔÇŁ as the input value, and map it through an SHA-256 hash function, the output value (or hash) returned will be:


Note that it doesnÔÇÖt matter how many times we perform this action, the output will always be the same (as long as the input doesnÔÇÖt change).

On the other hand, any minor change to the input will cause the hash function to return a completely different hash as the output. For example, if we submit the word ÔÇťbinanceÔÇŁ instead of ÔÇťBinanceÔÇŁ we would have the following hash as a result:


Hashes are useful for verifying the validity of certain information, without revealing what the information is. In practice, hash functions may be applied to various scenarios. A few use cases include database lookups, large files analyses, and data management.

When combined with cryptographic techniques, we have the so-called cryptographic hash functions. These are extensively used in information-security and are an essential part of most blockchain networks.
For instance, the Bitcoin blockchain has many operations that involve hashing, and these are crucial in the process of mining.
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