The concept of inheritance and abstract classes is entirely separate from partial classes.
When a class is marked as
partial it means that it will, when trying to compile that class, look through all of your code files for another class in your project that has the same namespace, the same class name, and is also marked as
partial. It will then combine the code from those definitions into one single class definition. The end result is almost the same as if you had copy/pasted the text from each of the partial classes into one class.
You don't actually need to have multiple instances of a partial class. If you mark a class a
partial and provide no additional partial implementations then that's just fine. It won't be a compiler error. It will just compile that class as the entire definition of that class, just the same way it would if
partial weren't there.
Inheritance is entirely separate from that concept. When a class is marked as
abstract it will be compiled into it's own type, and the definitions of that type will exist (separately from all implementations of it) in the compiled assembly.
When you inherit from a class (whether it was abstract or not) it doesn't "combine" the classes at compile time. They remain separate types that will exist in the compiled code. For each type it will have its own table that lists all of the methods of that type and where the definition of it is. For each of the derived type's new methods it will point to that definition in the new type. For a method inherited from the base class and not overridden it will reference the base class. For virtual methods that are defined in the base class but overridden in the derived class it will point to the derived class. Using this it can always find the actual implementation of each method. It does this at runtime right when it tries to call the method.