Ok so I start, If the force of the ball moving on the floor is greater than the friction of the floor, will the ball deccelerate to constant velocity like free falling does or it will keep deccelerate to zero? If you don’t understand I can find or draw you a picture
I know this thread is boring I expect no one will like it so nvm
If the force of the ball moving on the floor is greater than the friction of the floor, will the ball deccelerate to constant velocity like free falling does or it will keep deccelerate to zero?
Well, it depends on if the force is constant or not. A one off force (or push) and the ball will eventually roll to a stop due to things like drag, rolling resistance etc.
If the force is constant, i.e., it's rolling downhill, then the friction against the floor matters not, because it's rolling not sliding. It'll keep speeding up until the drag and rolling resistance force equals the force being applied to it.