How to make a good password

Effective account protection is a two-party effort. The user needs to be educated on good and bad password techniques, and the system administrator has to allow for human nature while still securing their system.

In this post, we will discuss a few ways to get users to create reasonable passwords.

Better passwords are random passwords

One method to make decent passwords is to use very random characters. That’s tougher than you might think. If software can create it, then software can guess it. Some people might want to use electrical noise or atomic decay as a password
salt, but now we are getting really geeky.

Initial character passwords

The average user can get away with something much easier. Just come up with a phrase that is at least 8 or 10 words long and start having some fun with it. When January 2000 rolled around, my monthly password (my account was changed every 23 to 32 days) was based on a phrase like this:

The year 2000 bug has gone away… see ya!

Which would be shortened to:


Since this is now publicly exposed, it should never be used by anyone again. If you have ever seen an example of a good password, then it’s not good anymore.

Passwords based on lyrics or sayings

Some people base a password on a song’s lyrics or some phrase. Let’s see what we come up with a few minutes of playing around.

Hey Jude, don’t make it bad. Take a sad song and make it better
This is a very popular Beatles song from 1968. It is longer than 10 words and it is easy to remember if you know the song, so it could work as a start of a basic password.

We take the first character of each word and mix the case up. That looks like a decent password, except that millions of people know that song, and might try the same combination. It’s a good first step, but needs a little more tweaking.

HJ ,dm1b. T@sS&mIb!
Basic character substitution, like changing the letter ‘a’ to ‘@’ looks good to most users, but as we mentioned in other posts, it’s so common that it is easily cracked. However, the addition of some basic punctuation and spaces can help.

HJ ,dm1b. T@sS&mIb!1968
The addition of numbers makes it even more unique. Some might argue that using the date of the song is still rather weak, but in reality, this is a pretty decent password.

It is true that putting extra information at the beginning or the end of common passwords is a proven pattern, but that’s more for passwords like 1969FordMustange (more common than you think) or Sandra1972 (even worse, as it is only a single word and date).

HJ ,dm1b. 1968 cha-cha-cha T@sS&mIb!
Ok, now we moved the date inside the password, and added some stuff that has nothing to do with the song. While this isn’t a random password, it is certainly unique enough to be reasonable. If you make something up like this yourself, and you remember the pattern or logic in how you made it, then you can come up with a combination that is easy for you to remember but hard for others to guess.

Some people will simply make a short sentence their password. If you have a password of several words, complete with punctuation and spaces, you have an easy to remember password that is longer than 8 characters, contains no personal information, and is not in a dictionary.
Add some funky spelling and other characters and numbers, and you should be fine.

  • i-H8TEmodays, don’t u?
  • WhydoIHave2000passWorz?!?
  • MyBossIsGreat;i’m*self*employed!

Of course, since no one should ever know your password, you can type things about your boss that you would never actually say 😉 Be careful, sometimes these passwords do get out.

Phonetic Passwords

You can make up your own nonsense word that means nothing but is speakable and easy to remember. Phonetically, these can be spoken (in your head) when you are learning them:

  • yo-mah, suTEEy8t
  • dach,Tez.CHi’set
  • pL8t.=,Sk8t
Use multiple passwords for multiple accounts

Remember to use different passwords for all of your accounts. This is a pain, but a necessary evil. If someone cracks one of your passwords, they cannot get into everything you have.

For example, imagine that someone uses their parent’s phone number for all of their banking PINs, online bill payments, work and personal email passwords, and so on. Once someone finds out that password, they are going to try it everywhere.

Don’t make it any easier for the bad guys.

In theory, every password you have should be totally random and unrelated to anything.

(Good luck with that,
human nature goes against it.) If you are given 12 passwords for 12 different systems that are totally random, chances are you are going to record them or forget them (or both). The average person will not memorize a dozen passwords, especially if they are not all used daily or if they change too often.

Different people handle this problem in different ways.

Some might use a passbook or a keychain system, where all their passwords are encrypted in a single, reasonable secure way. They would have one ‘master password’ to open the keychain and access whatever other password they need to use. This is popular, as the user only needs to really remember 1 strong password (it had better be strong!) and allows them to have many passwords for many systems.

It does, however, have some drawbacks. First, if the master password is lost or forgotten, then all their passwords are lost or forgotten. Second, if the master password gets cracked, then all of their passwords are exposed.

Another thing that some people try to do is have a common base password that they build other passwords on. For example, let’s assume that a person has to use several systems, and that they want a unique password for each.

  • Work email
  • Personal email
  • Work computer 1 (local Windows workstation)
  • Work computer 2 (Unix server)
  • Personal computer (Macintosh)

Maybe they come up with a password root based on some of the examples earlier like

. They might then use that as a basis for their different passwords:

  • Work email:

  • Personal email:

  • Work computer 1 (local Windows workstation):

  • Work computer 2 (Unix server):

  • Personal computer (Macintosh):


The base of the password is reasonable, and the extension isn’t always the same pattern, so if one password is exposed, the others still have a chance of being secure until they can all be changed to something new. If a password does get exposed change them all (you should be changing passwords every now and then anyway).

Technically, if you are going to use this method, you might reverse the order and have the unique part of the password first, and the common parts near the end. This way, if someone is casually watching you type, it looks like a completely different password, and so it’s harder to find a pattern.

In other words, using the above example, you might use this:

  • Work email:

  • Personal email:

  • Work computer 1 (local Windows workstation):

  • Work computer 2 (Unix server):

  • Personal computer (Macintosh):


The first part of the password helps scramble the repeating pattern that is common to all of them.

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About Gordon Lanoie

With a background in Computer Engineering Technology from Red River Community College, Gordon has been active on the digital scene since the mid-1990s. He currently works with all Lanoie clients to determine their needs and to develop affordable, effective online strategies for their businesses and organizations. With a background in teaching internet technology in the late 1990s at Winnipeg Technical College (formerly South Winnipeg Technical Center) and soon after at UWinnipeg PACE (formerly the Division of Continuing Education), Gordon has a broad background with the needs of students as well as administration in the education industry.