As the other posts have noted, you're asking about a java feature called generics. In C++, this is called templates. The java beasties are far tamer to deal with.
Let me answer your questions functionally (if that's not a naughty word for OO discussions).
Before generics, you had good old concrete classes like Vector.
Vector V = new Vector();
Vectors hold any old object you give them.
V.add("This is an element");
However, they do this by casting everything you give it into an Object (the root of all java classes). That's OK until you attempt to retrieve the values stored in your Vector. When you do, you need to cast the value back into the original class (if you want to do anything meaningful with it).
String s = (String) v.get(0);
Integer i = (Integer) v.get(1);
Hashtable h = (Hashtable) v.get(2);
Casting gets pretty old fast. More than that, the compiler whines at you about unchecked casts. For a vivid example of this, use the XML-RPC library from Apache (version 2 anyway). The most important problem with this is that consumers of your Vector have to know the exact class of its values at compile time in order to cast correctly. In cases where the producer of the Vector and the consumer are completely isolated from each other, this can be a fatal issue.
Enter generics. Generics attempt to create strongly typed classes to do generic operations.
ArrayList<String> aList = new ArrayList<String>();
System.out.println("Got one: " + aList.get(0)); // no cast needed
Now, if you take a look at the infamous gang of four's /Design Patterns/ book, you'll notice that there is some wisdom in divorcing variables from their implementing class. It's better to think of contracts rather than implementation. So, you might say that all List objects do the same things: add(), get(), size(), etc. However, there are many implementations of List operations that may choose to obey the contract in various ways (e.g. ArrayList). However, the type of data these object deal with is left as a runtime consideration to you, the user of the generic class. Put it all together and you'll see the following line of code very frequently:
List<String> L = new ArrayList<String>();
You should read that as "L is a kind of List that deals with String objects". When you start dealing with Factory classes, it is critical to deal with contracts rather than specific implementations. Factories produce objects of various types at runtime.
Using generics is pretty easy (most of the time). However, one awful day you may decide you want to implement a generic class. Perhaps you've thought of a great new List implementation. When you define that class, you use < t > as a placeholder for the kind of object that will be manipulated by the methods. If you're confused, use the generic classes for List until you're comfortable. Then, you can dive into the implementation with a bit more confidence. Or you can look at the source code for the various List classes that ship with the JRE. Open source is great that way.
Have a look at the Oracle/Sun docs about generics.