I'm really confused about the differences between big O, big Omega, and big Theta notation. I understand that big O is the upper bound and big Omega is the lower bound, but what exactly does big Theta represent? I have read that it means "tight bound", but what does that mean?

It means that the algorithm is both bigO and bigOmega in the given function. For example, if it is Theta(n), then there is some constant K such that your function (runtime, whatever), is larger than n*K for sufficiently large n, and some other constant k such that your function is smaller than n*k for sufficiently large n. In other words, for sufficiently large n, it is sandwiched between two linear functions. 


First let's understand what big O, big Theta and big Omega are. They are all sets of functions. Big O is giving upper asymptotic bound, while big Omega is giving a lower bound. Big Theta gives both. Everything that is For example, merge sort worst case is both A bit deeper mathematic explanation:
We usually use it to analyze complexity of algorithms (like the merge sort example above). When we say "Algorithm A is Why we care for the asymptotic bound of an algorithm?
To demonstrate this issue, have a look at the following graphs: It is clear that In the above example, (1)Usually, though not always  when the analysis class (worst/average/...) is missing, we really mean it is the worst case. 


Theta(n): A function
when we say O(n): It gives only upper bound (may or may not be tight)
ex: The bound o(n): It gives only upper bound (never a tight bound)
ex: 

