Sometimes I see Θ(n) with the strange Θ symbol with something in the middle of it, and sometimes just O(n). Is it just laziness of typing because nobody knows how to type this symbol, or does it mean something different?

To explain it to your grandma:
Normally, even when people talk about O(g(n)) they actually mean Θ(g(n)) but technically, there is a difference. More technically:O(n) represents upper bound. Θ(n) means tight bound. Ω(n) represents lower bound.
For example, an upper bound for the naive recursive approach to compute Fibonacci sequence is:
but the tight bound is
which is also a valid upper bound. Basically when we say an algorithm is of O(n), it's also O(n^{2}), O(n^{1000000}), O(2^{n}), ... but a Θ(n) algorithm is not Θ(n^{2}). In fact, since f(n) = Θ(g(n)) means for sufficiently large values of n, f(n) can be bound within c_{1}g(n) and c_{2}g(n) for some values of c_{1} and c_{2}, i.e. the growth rate of f is asymptotically equal to g: g can be a lower bound and and an upper bound of f. This directly implies f can be a lower bound and an upper bound of g as well. Consequently,
Similarly, to show f(n) = Θ(g(n)), it's enough to show g is an upper bound of f (i.e. f(n) = O(g(n))) and f is a lower bound of g (i.e. f(n) = Ω(g(n)) which is the exact same thing as g(n) = O(f(n))). Concisely,
There are also smalloh and smallomega ( To summarize:
For a more detailed discussion, you can read the definition on Wikipedia or consult a classic textbook like Introduction to Algorithms by Cormen et al. 


Rather than provide a theoretical definition, which are beautifully summarized here already, I'll give a simple example: Assume the run time of
The second code fragment below has the asymptotic runtime of






There's a simple way (a trick, I guess) to remember which notation means what. All of the BigO notations can be considered to have a bar. When looking at a Ω, the bar is at the bottom, so it is an (asymptotic) lower bound. When looking at a Θ, the bar is obviously in the middle. So it is an (asymptotic) tight bound. When handwriting O, you usually finish at the top, and draw a squiggle. Therefore O(n) is the upper bound of the function. To be fair, this one doesn't work with most fonts, but it is the original justification of the names. 


one is Big "O" one is Big Theta http://en.wikipedia.org/wiki/Big_O_notation Big O means your algorithm will execute in no more steps than in given expression(n^2) Big Omega means your algorithm will execute in no fewer steps than in the given expression(n^2) When both condition are true for the same expression, you can use the big theta notation.... 


That character is Theta, by the way. I think this wikipedia article will explain bigO, bigtheta, and others quite well... 


protected by Will Sep 29 '10 at 11:40
Thank you for your interest in this question.
Because it has attracted lowquality answers, posting an answer now requires 10 reputation on this site.
Would you like to answer one of these unanswered questions instead?