You need to understand the event model first. In event-driven environments like Windows or Android or Linux etc... the "automatic " tasks such as animations of coordinates or other properties are usually done using Timers that keep re-sending events back to the handler that advances the animation/process. In your particular example - if you need to move label, use Widows.Forms.Timer. It is not appropriate to block UI thread that processes events with lengthy tasks as UI thread will stall and your app will freeze or become jerky. NOW, on the other hand there are many cases when adding extra threads DOES help a lot, when? Not in your case, because you only change the coordinate of the label that is nothing in terms of CPU in comparison to repaint, so your solution with extra thread is LESS efficient and much more complex than using timer. An extra thread is beneficial only when the logical work it performs on animation model is comparable or out-weights the paint work- imagine a game where 200 bugs need to be animated on screen according to many logical rules, in this case bug painting may be done in UI thread, but bug property changes/animations may be done in another thread if those computations are intense.
How Events work?
An OS has an infinite loop inside that gets interrupted by keyboard, mouse and other events but the loop spins indefinitely until you shut down Windows (or Android or XWidnws...). At the end of the loop the OS looks at "raw" mouse/key events and dispatches them into appropriate application queue. It knows it by inspecting every app windows list, who is on top and thus it knows what window/app was under such and such X,Y mouse coordinate. When event gets dispatched to your app your job is to handle it very fast and look for another event in your queue (queues are bound to UI Threads/Windows).
How Timers Work?
A timer is a special kind of event that OS can keep sending to you periodically from its internal "infinite loop". OS keeps track of what apps requested to be notified and how often - when time comes, it adds a WM_TIMER(on MS Windows) into your windows queue. This way you don't block anything, but get a method in your code that gets called every X milliseconds. When you use .NET Timer class - it is just a wrapper around CreateTimer() KillTimer() (I dont recall exact func names) in Windows User APIs. .NET Timer also knows how to swallow the WM_TIMER and call a C# event/delegate for you.
I hope this helps!