The best answer will depend on what the use case and environment for these classes will be. As part of a team developing an app or framework, adopting the design patterns used by that team is preferable to seeking a 'perfect' solution, since it will make it easier for others to adopt and maintain your code.
How you expect these classes to be used and extended is also important. Would you expect 'Square' to need to be movable in the future? Is the movability of a Shape always static, or might it be more useful as a dynamic attribute? Does Move() have any value for classes that are not Shapes? If movability may be useful as a dynamic attribute, consider this:
public abstract class Shape
{
public bool isMovable()
{
return false;
}
public virtual void Move()
{
if (!isMovable() {
throw new NotSupportedException();
} else {
throw new BadSubclassException();
}
}
}
Your subclasses can then override isMovable to provide either static or dynamic behavior, and can be further modified or subclassed over time, so long as your documentation makes clear that isMoveable should always precede a call to Move. The default behavior should be based on the expectations of others you expect to use your code, based on how they've implemented related design patterns.
A good example of the challenge of making these decisions can be found by looking at the history of how mutability of collection classes has evolved in different frameworks. There have been designs where the mutable classes (sets, arrays, dictionaries, etc.)have been the base class, with immutability implemented in subclasses, as well as the reverse. There are valid arguments for both approaches, as well as a dynamic approach, but the most important factor for the user of a framework is consistency, because what is correct is really a matter of what is easiest to use, providing safety and performance are not compromised.