Object Oriented is a concept. This concept is based upon certain ideas. The technical names of these ideas (actually rather principles that evolved over the time and have not been there from the first hour) have already been given above, I'm not going to repeat them. I'm rather explaining this as simple and non-technical as I can.
The idea of OO programming is that there are objects. Objects are small independent entities. These entities may have embedded information or they may not. If they have such information, only the entity itself can access it or change it. The entities communicate with each other by sending messages between each other. Compare this to human beings. Human beings are independent entities, having internal data stored in their brain and the interact with each other by communicating (e.g. talking to each other). If you need knowledge from someone's else brain, you cannot directly access it, you must ask him a question and he may answer that to you, telling you what you wanted to know.
And that's basically it. This is real idea behind OO programming. Writing these entities, define the communication between them and have them interact together to form an application. This concept is not bound to any language. It's just a concept and if you write your code in C#, Java, or Ruby, that is not important. With some extra work this concept can even be done in pure C, even though it is a functional language but it offers everything you need for the concept.
Different languages have now adopted this concept of OO programming and of course the concepts are not always equal. Some languages allow what other languages forbid, for example. Now one of the concepts that involved is the concept of classes. Some languages have classes, some don't. A class is a blueprint how an object looks like. It defines the internal data storage of an object, it defines the messages an object can understand and if there is inheritance (which is not mandatory for OO programming!), classes also defines from which other class (or classes if multiple inheritance is allowed) this class inherits (and which properties if selective inheritance exists). Once you created such a blueprint you can now generate an unlimited amount of objects build according to this blueprint.
There are OO languages that have no classes, though. How are objects then build? Well, usually dynamically. E.g. you can create a new blank object and then dynamically add internal structure like instance variables or methods (messages) to it. Or you can duplicate an already existing object, with all its properties and then modify it. Or possibly merge two objects into a new one. Unlike class based languages these languages are very dynamic, as you can generate objects dynamically during runtime in ways not even you the developer has thought about when starting writing the code.
Usually this dynamic has a price: The more dynamic a language is the more memory (RAM) objects will waste and the slower everything gets as program flow is extremely dynamically as well and it's hard for a compiler to generate effective code if it has no chance to predict code or data flow. JIT compilers can optimize some parts of that during runtime, once they know the program flow, however as these languages are so dynamically, program flow can change at any time, forcing the JIT to throw away all compilation results and re-compile the same code over and over again.
But this is a tiny implementation detail - it has nothing to do with the basic OO principle. It is nowhere said that objects need to be dynamic or must be alterable during runtime. The Wikipedia says it pretty well:
Programming techniques may include
features such as information hiding,
data abstraction, encapsulation,
modularity, polymorphism, and
They may or they may not. This is all not mandatory. Mandatory is only the presence of objects and that they must have ways to interact with each other (otherwise objects would be pretty useless if they cannot interact with each other).