It has to do with some of the basic reasons for cryptography:
- Make sure a message isn't altered in transit (Immutable)
- Make sure a message isn't read in transit (Secure)
- Make sure the message is from who it says it's from (Authentic)
- Make sure the message isn't the same as one previously sent (No Replay)
There's a few things you need to include, then, to make sure that the above is true. One of the important things is a random value.
For instance, if I encrypt "Too many secrets" with a key, it might come out with "dWua3hTOeVzO2d9w"
There are two problems with this - an attacker might be able to break the encryption more easily since I'm using a very limited set of characters. Further, if I send the same message again, it's going to come out exactly the same. Lastly, and attacker could record it, and send the message again and the recipient wouldn't know that I didn't send it, even if the attacker didn't break it.
If I add some random garbage to the string each time I encrypt it, then not only does it make it harder to crack, but the encrypted message is different each time.
The other features of cryptography in the bullets above are fixed using means other than randomness (seed values, two way authentication, etc) but the randomness takes care of a few problems, and helps out on other problems.
A bad source of randomness limits the character set again, so it's easier to break, and if it's easy to guess, or otherwise limited, then the attacker has fewer paths to try when doing a brute force attack.