I'm taking a discrete mathematics course, and I encountered a question and I need your help. I don't know if this is the right place for that though :)

It says:

Each user on a computer system has a password, which is six to eight characters long, where each character is an uppercase letter or a digit. Each password must contain at least one digit. How many possible passwords are there?

The book solves this by adding the probabilities of having six,seven and eight characters long password. However, when he solves for probability of six characters he does this

P6 = 36^{6}- 26^{6}

and does

P7 = 36^{7}- 26^{7}

and

P8 = 36^{8}- 26^{8}

and then add them all.

I understand the solution, but my question is why doesn't calculating, P6 = 10*36^{5} and the same for P7 and P8, work?
10 for the digit and 36 for the alphanumeric?

Also, if anyone could give me another solution, other than the one in the book.

Thank you very much :)

`123456`

valid? – SLaks May 18 '10 at 0:08`123456`

it qualifies as containing a minimum of one digit with the rest of the characters being alphanumeric, so it is indeed valid. However, so are`A1B2CD`

and`EFG9H0`

, so while such an optimization would be easy in programming, it makes the resulting expression more complex, assuming you were intending to optimize the calculation of the result. – Dustin May 18 '10 at 0:11