Something not mentioned in here is you should salt your hashes.. yum yum.
What a salt is/does.
Lets say you get a hold of someone's DB full of hashed passwords. If they hashed with no salt, then "breaking" passwords would be as easy as downloading a large pre-hashed dataset of a crap-ton of strings.
If the hash from one string matches, then you have a good chance of knowing the password. Even if it's not the correct password, you can still log in with it since it gives the same hash.
This is where salting your hashes comes in. If you add a salt (aka pre-determined random string) to a password before it is hashed, then you can't just pre-hash a ton of strings
Password: ABCD hashes into 1234EFG
Large list of pre-hashed strings hash a hash of 1234EFG, may or may not be ABCD, but it will still work.
Password: ABCD concat 0315927429 hashes into 43BCF1
Each password has a different salt, so you can't use one pre-computer hash lookup table, you'd have to re-compute the hashes for every password.
Re-computing would incredibly time consuming. Now, the salt doesn't have to be securely stored for it to add lots of this benefit. Even if you store the salt in the same table, it would be incredibly hard for anyone to make a hash lookup to try to reverse any one person's password.
To other responder: "One answer that is missing here is explaining to the OP that hashing is not encryption."
Hashes are sometimes refereed to as "One way encryption". This is a bad description and adds to the confusion you mentioned.