Learn the key differences between centripetal and centrifugal forces, their real-world applications in physics, and how they shape our understanding of circular motion.

The net force would be 9.4 N, to produce an acceleration of 9.4 m/s 2. Because of the rock's larger mass, it would have a much greater acceleration and it would hit the ground first—at least on ...

There is no resultant (or net) force as the forces add up to zero. ... Resultant force F = mass m x acceleration a. F = ma. F = resultant force in N. m = mass in kg. a = acceleration on m/s 2 ...

Here, the net horizontal force should be the product of the mass and the horizontal acceleration. These forces are vectors, which means they can act in both the horizontal (x) and vertical (y ...

Second Law (Force and Acceleration): How fast an object speeds up depends on how hard you push and how heavy the object is. The heavier it is, the harder you have to push to make it move faster.

There is no resultant (or net) force as the forces add up to zero. ... This practical uses light gates and a data logger to investigate resultant force and acceleration. Key fact.