Another important reason for using the Factory Pattern is to consider what happens to your code when you have to add classes to your design & code.
If you're not using a Factory Pattern, your code is going to be increasingly tightly coupled, you'll have to make changes in many different places. You'll have to ensure that every place you have to touch the code is coordinated with all of the other (tightly coupled) places you'll have to touch. Testing becomes much, much more complicated, and something is going to break.
The Factory Pattern gives you a way to reduce coupling and helps you to encapsulate responsibilities into just a few places. With a Factory Pattern, adding additional classes means touching the code in fewer places. Testing (constructing test cases as well as running tests) is simplified.
In the real world, most code is complex 'enough' that the benefits of the Factory Pattern are clear. Changing, refining and growing the object model, making testing as complete and rigorous as possible in the face of rapid change, and ensuring that you're making your code as non-rigid as possible (all while realizing that multiple people are going to be working on it over the course of months/years) -- the Factory Pattern is usually a no-brainer.
With a trivial example, it can be hard to see the advantages of using the Factory Pattern. (And if your code really is trivial, then the pattern probably won't buy you much.) That's a problem with many examples I see when I search for it on the web -- the examples tend to focus on 'you can determine the class at run-time!' and are simplistic.
Here's one example that's not too trivial, and I think gets people about thinking of all of the possible benefits of the pattern:
A presentation on the Factory Pattern by Bob Tarr (pdf). (It's example 2, starting about page 10.) Imagine you're writing a maze game where a person has to explore a maze and all the rooms in a maze. Your object model include a Maze that consists of things like Doors, Rooms, Walls, and there's a Map that also has to keep track of them all. Simple enough. But what happens when you start adding Enchanted Rooms and Enchanted Doors and Magic Windows and Talking Pictures and Twisty Little Passages? You're going to end up with a lot of classes to represent everything; you want to make sure that you have to change (touch) as little code as possible when you add a new class. And you don't want to have to modify the code in the Map class, for instance, each time you add a new class: you want to keep the classes focused on what they should really be responsible for.
Think not just about what gets instantiated at run time, but also about code complexity.
He also gives an example of using the Factory Pattern (a Factory Method, specifically) with UI components -- where the Factory Pattern turns up a lot. (For a beginner, or someone who has never dealt with UI code, I don't think that example is quite as clear.)
Remember that most coding is done on existing code: most time is spent modifying code that's already there. You want to be sure that your code will be able to handle changes without being fragile. Reducing coupling and encapsulating responsibility will go a long way in making it so.