Java masks pointers used by the underlying memory management, so you typically don't need to worry about them. But lets straighten out some terminology.
A Java class is a blueprint; it defines behaviors (methods) and state (variables). Some parts of an object, specifically those which are static are shared by all instances of that class (running in the same execution environment), and indeed do not require the class to be instantiated at all to be accessible.
An object is a particular instance of a class. All non-static variables and methods are unique to this object and this object alone. When you use new you are creating a new object instance of a class.
This becomes obvious when you examine how static methods are executed differently from non-static ones:
MyObject.aStaticMethod();//Note I don't instantiate the class.
MyObject obj = new MyObject();
obj.aNonStaticMethod(); //For non-static methods, I MUST have an object instance of the class.
Note in the above example the
obj token is a reference (which is subtly different from a pointer) to a particular place in memory. That place in memory is the instance of the
obj, and happens to include references to code and state variables that are held in another area of memory set aside for the
MyObject class. In this second area, all the static code and static variables are kept. But usually you don't have to worry about that level of fine detail.