Your quoted meaning of protected is not the technical definition, but merely what the spec quotes as the intuitive meaning (section 3.5.1):
The intuitive meaning of protected is “access limited to the
containing class or types derived from the containing class”.
Further down in the same section it gives a more rigorous definition (Here M is member of a type T):
Otherwise, if M is protected, the access is permitted if it occurs
within the class in which M is declared, or if it occurs within a
class derived from the class in which M is declared and takes place
through the derived class type (§3.5.3).
The referenced section (3.5.3) is specifically about protected member access and contains your example with the note:
This restriction prevents one derived class from accessing protected
members of other derived classes, even when the members are inherited
from the same base class.
Thus the answer is clear. It is designed to prevent a third class from doing something like this:
public class C : A
public static void F(A a, B b, C c)
a.x = 1; // not allowed
b.x = 1; // not allowed
c.x = 1; // allowed
With your definition of
protected the first two assignments would be allowed. This would be rather odd. Say I had my library and I defined
B but I let you inherit from
A and you wrote
C. I would be a little alarmed as a library author that some one could modify the internal details in instances of classes that I wrote! Sure you could expose modification of the field
C through a property or method but that behavior is limited to instances of your class