Which Newtonian law states that the force on an object equals its mass multiplied by its acceleration?

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Multiple Choice

Which Newtonian law states that the force on an object equals its mass multiplied by its acceleration?

Explanation:
Net force determines acceleration. The statement that the force on an object equals its mass times its acceleration expresses Newton's second law: F_net = m a. Mass acts as the resistance to changes in motion, so for a given mass the acceleration is proportional to the net force and points in the same direction as that force. If you double the net force on a 3 kg object, its acceleration doubles; if you double the mass with the same net force, the acceleration halves. The equation is vectorial: the net force and the acceleration share direction, mass is a scalar, and acceleration is a vector. This best captures how force, mass, and motion are linked. The law of inertia describes motion without net force, Newton's third law describes action-reaction pairs, and the law of universal gravitation explains how masses attract each other, but none express the direct F = m a relationship.

Net force determines acceleration. The statement that the force on an object equals its mass times its acceleration expresses Newton's second law: F_net = m a. Mass acts as the resistance to changes in motion, so for a given mass the acceleration is proportional to the net force and points in the same direction as that force. If you double the net force on a 3 kg object, its acceleration doubles; if you double the mass with the same net force, the acceleration halves. The equation is vectorial: the net force and the acceleration share direction, mass is a scalar, and acceleration is a vector.

This best captures how force, mass, and motion are linked. The law of inertia describes motion without net force, Newton's third law describes action-reaction pairs, and the law of universal gravitation explains how masses attract each other, but none express the direct F = m a relationship.

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