I can't really give a definitive answer, as I can't read the minds of the designers of
LinkedList<T>. What I can say is this.
In Java, the
LinkedList<E> class implements the
Queue<E> interface, which reflects a decision on the designers' part: "You know what? A linked list can easily be used as a queue, so we might as well have it implement that interface." And the way you interact with a queue is by popping items off the end, and then, you know, using them for something (which means it's natural for a
Pop-like operation to return the element popped).
In .NET, there is no
IQueue<T> interface. Basically, the designers made a different decision: "The most efficient implementation of queue-like behavior we know of is a simple array-based circular queue. So if developers want a queue, they should use the
Queue<T> class, which is exactly that."
If a developer wants to use a
LinkedList<T> as a queue (or a deque for that matter), chances are he/she is picking the wrong implementation for the data structure he/she actually needs (from the .NET point of view).
Thus, in the spirit of "a proper function should do exactly one thing," the BCL folks opted to make
LinkedList<T>.RemoveFirst do just that: remove the first element (similar to how
List<T>.RemoveAt just removes the element at the specified index and returns nothing).
I'm not saying either decision is right or wrong. I think the different interfaces of the standard linked list class in Java and .NET simply reflect different views of what a linked list is and how it should be used within the two frameworks.