Suppose someone has a List of Animal, and one wishes to compare two items against each other: an instance of Cat and an instance of Dog. If the Cat instance is asked whether it is the same as the Dog instance, does it make more sense for the cat to throw an InvalidTypeException, or for it to simply say "No, it's not equal".
An Equals method is supposed to obey two rules:
- Reciprocity of equality: For any X and Y, X.Equals(Y) will be true if and only if Y.Equals(X) is true.
- Liskov Substitution Principle: If class Q derives from P, an operation that can be done with a Q may also be done with a P.
These together imply that if Q derives from P, it must be possible for an object of type P to call Equals on an object of type Q, which in turn implies that it must be possible for an object of type Q to call Equals on an object of type P. Further, if R also derives from P, it must be possible for an object of type Q to call Equals on an object of type R (whether or not R is related to Q).
While it may not be strictly necessary for all objects to implement Equals, it's much cleaner for all classes to have a single Equals(Object) than to have a variety of Equals methods for different base types, all of which must be overridden with identical semantics to avoid weird behaviors.
Object.Equals exists to answer the question: given two object references X and Y, can object X promise that outside code which doesn't use ReferenceEquals, Reflection, etc. would be unable to show that X and Y do not refer to the same object instance? For any object X, X.Equals(X) must be true since outside code cannot possibly show that X is not the same instance as X. Further, if X.Equals(Y) is "legitimately" true, Y.Equals(X) must also be true; if not, the fact that X.Equals(X) (which is true) doesn't match Y.Equals(X) would be a demonstrable difference implying that X.Equals(Y) should be false.
For shallowly-mutable types, if X and Y refer to different object instances, one could generally demonstrate this by mutating X and observing whether the same mutation occurred in Y(*). If such mutation could be used to demonstrate that X and Y are different object instances, then X.Equals(Y) should return true. The reason two String objects containing the same characters will report themselves equal to each other is not just that they happen to contain the same characters at the time of comparison, but more significantly that if all instances of one were replaced with the other, only code that used ReferenceEquals, Reflection, or other such tricks, would even notice.
(*) It would be possible to have two distinct but indistinguishable instances X and Y of a shallowly-mutable class which both held references to each other, such that methods that would mutate one would also mutate the other. If there would be no way for outside code to distinguish the instances apart, one might legitimately have X.Equals(Y) report true (and vice versa). On the other hand, I can't think of any way such a class would be more useful that one in which both X and Y held immutable references to a shared mutable object. Note that X.Equals(Y) does not require that X and Y to deep-immutable; it merely requires that any mutations applied to X will have identical effects on Y.