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ISAAC NEWTON 1643-1727 A. Force and Acceleration 4(mv)-FAt We already encountered the equation DEUTSCHE BUNDESPOST 100 net as the particular version of the definition of force for an object of constant mass m. If you divide the equation by m, you get net It is worthwhile considering this equation for a while, since it is one of the most famous equations in all of physics (the most famous one, E=mc2, will have to wait tilI later). Consider the following scenarios, neglecting friction. Also, assume that the objects do not fall apart, i.e., that they do not loose mass. This is a standard assumption, unless explicitly stated otherwise. • If there is no net force on an object, it • If there is no acceleration, the object v accelerate. • have a velocity. Submit Answer Tries 0/3 • If there is no net force, and the object is moving, it • If there is no net force, and the object is at rest, it keep on moving. v remain at rest. Submit Answer Tries 0/3 • If an object remains at rest, there • If an object moves, there • If an object accelerates, there • If an object has a constant velocity, there v be a net force acting on it. v be a net force acting on it. • be a net force acting on it. v be a net force acting on it. Submit Answer Tries 0/3 v it is to make it move. • The more mass an object at rest has, the • The more mass a moving object has, the • The less mass a moving object has, the • it is to keep it moving. v it is to stop it. Submit Answer Tries 0/3