I may fail, but I'm going to take a stab at an explanation on this for you.
In honesty, I think you may be making what is really a very classic mistake in how you conceive object programming - and that's making the distinction between objects and classes. Object creation in virtually any object-oriented language is one of construction based on a class definition. From your question, it sounds as though you are mentally modeling an OO language in general and object inheritance in particular as aggregating discrete objects, where in reality the objects are being defined in terms of aggregated class definitions.
public class A
public class B:A
public class C:B
In your A->B->C model, C's definition is in terms of its own unique properties plus all the members of its immediate ancestor, B, which, in turn, is defined in terms of its own unique properties plus all the members of its immediate ancestor, A. The process of creating the object is still a unique and discrete event, and the object, despite its multi-layered heritage, is still only one object at instantiation time.
Regarding the visibility of certain members: When a class author designs and builds a class, he makes certain decisions about what he makes available in two distinct perspectives: that which is exposed to consumers of the class, and that which is exposed or available to subclasses. Members and fields declared private are every bit a part of descendant classes, even if they are "contractually" forbidden to be accessed by subclasses. You could make a crude analogy that a TV has a "public" interface of an on/off button, volume control, and color controls, but has "internal" controls not intended for the consumer such as the internal electronic components, or the power supply. They're still very much there even though they are not "visible" or "available" to consumers or subclasses.
Now, that said, there are constructs in most OO languages that reflect the properties you describe - multiple objects - and that involve a design pattern known as Composition (or, sometimes, Aggregation. This is where a class isn't derived from an ancestor class - typically because the class is declared "sealed" (C#) or "final" (Java) (or other designation that prohibits inheritance). That forces a developer interested in using the class to make it a member of another class, such that when the an object of the class is instantiated, you DO have discrete objects of both classes.
You might have the following:
public final class InterestingThing
public final class MyThing
InterestingThing _interestingThing = new InterestingThing();
This is very much the kind of scenario you were describing in your original question, in which the creation of MyThing implies the distinct creation of an InterestingThing. Keep in mind, too this structure is generally forced by the design and definition of the original class of interest.
Ultimately, objects are defined by their classes, and multiply-inherited classes are still just a class, but in a refined, hopefully increasingly robust, hierarchy based on good, incremental object design.
I hope, in some way, this explanation helps to answer your question.