Cryptography vs Hashing

My question is simple: encryption hides information to the point where only the people intended to see the information can actually see it. You can encrypt information and then decrypt it. Why is hashing is considered encryption if it cannot be decrypted?

I say hashing is considered encryption because you call MD5 a cryptographic hash function.

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Encryption (in the sense you seem to use the term) is not only used to hide information but also to identify the provider (sender) of information (message.) Hashing is more related to this aspect. It can be used to make an equivalents of signatures. You can verify a signature by comparing to the original but you can't easily make another's person signature. –  ypercube Nov 8 '13 at 23:12
Just because something is "cryptographic" doesn't mean it is "encryption". They are different words with different meanings. –  Thomas M. DuBuisson Nov 9 '13 at 1:34
It isn't 'considered encryption'. It's considered 'cryptographic hashing', which means it has useful properties in the domain of cryptography, which extends beyond encryption. –  EJP Nov 9 '13 at 2:03
This question appears to be off-topic because it is about cryptography, without a specific programming question. –  owlstead Nov 9 '13 at 14:18

Cryptography is broad field of study which covers both encryption and secure hashing. It also encompasses a variety of other topics, including secret sharing, public-key systems, and random number generation. One might summarize it broadly as the science of working with secrets.

Hashing is not considered a form of encryption. There are some relationships between certain algorithms used for hashing and encryption, but the two are not interchangeable.

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Correct, Hashing is a one way function, but Hashing isn't considered Encryption. A good explanation of the difference Hashing vs Encryption and Fundamental difference between Hashing and Encryption algorithms.

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You could say that hashing is not encryption because it is a one way function. Encryption is not very useful without decryption. You can of course create a cipher (PRP) out of a hash (PRF), but that does not change the fact that they are different. –  owlstead Nov 9 '13 at 14:22

It is all about the purpose. Hashing is not about 'find out what the original message is' but about an unique sequence of bits, in other words unique id, that identifies the original message.

Even very small changes in the source message would drastically change the resulting output bit sequence, by the so-called avalanche effect.

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En and De prefix many English word pairs, such as en code and de code. Or en able and dis able. En generally means 'put into', and De generally means 'remove'

en cryption is the act of applying cryptography. de cryption is the act of removing cryptography.

To en crypt infers that de crypting must be possible.

With hashes ('one way cryptography') this is not possible. So to say you en crypt a hash makes no sense, as it cannot be de crypted.

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