One of the aspects of the object oriented approach that has made it so wildly popular is that you can hide your variables inside of a class. The class becomes like a container. Now you as the programmer get to decide how you want the users of your class to interact with it. In Java, the tradition is to provide an API -- a public interface for your class using methods of the class.
To make this approach work, you declare your variables as private ( which means only methods within your class can access them ) and then provide other methods to access them. For example,
private int someNumber;
This variable can only be accessed from within your class. Do you think others might need access to it from outside of the class? You would create a method to allow access:
public int getSomeNumber()
Perhaps users of your class will also need the ability to set someNumber as well. In that case, you provide a method to do that as well:
public void setSomeNumber( int someNumber )
this.someNumber = someNumber;
Why all of this work just to get access to a class member that you could just as easily declare as public? If you do it using this approach, you have control over how others access the data in your class. Imagine that you want to make sure that someNumber only gets set to be a number < 100. You can provide that check in your setSomeNumber method. By declaring your variables to have private access, you protect your class from getting used incorrectly, and make it easier on everyone who needs to use it -- including yourself!
Declaring a variable to have static access means that you do not need an instance of the class to access the variable. In Java, generally you write a class and then create an instance of it. You can have as many instances of that class as you want, and they all keep track of their own data. You can also declare variables that are part of the class itself, and this is where the static keyword comes in. If you create a variable...
static int classVariable = 0;
the variable can be accessed without a class instance. For example, you might see this done from time to time:
public static final int MY_CONSTANT = 1;
While there are better ways to do this now, it is still a common pattern. You use this variable without any instance of the class like this:
myInstance.setSomeNumber( MyClass.MY_CONSTANT );
java.awt.Color uses static variables this way. You can also declare methods to be static ( look at public static void main, the starting point for your programs ). Statics are useful, but use them sparingly because creating instances of classes can often result in better designs.
Finally ( pun intended ), why would you ever want to declare a variable to be final? If you know that the value should never change, declaring it as final means that if you write some code that tries to change that value, the compiler will start complaining. This again helps protect from making silly mistakes that can add up to really annoying bugs.
If you look at the static variable example above, the final keyword is also used. This is a time when you have decided that you want to make a variable public, but also want to protect it from being changed. You do this by making it public and final.