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C. equal
The mass of the first object; the mass of the second object; the distance between them.The mass of the first object; the mass of the second object; the distance between them.The mass of the first object; the mass of the second object; the distance between them.The mass of the first object; the mass of the second object; the distance between them.
First: An object in equilibrium will have no motion Second: An object in motion will move on at same speed indefinitely (considering no friction) Third: A force apply on an object will cause it to accelerate The Newton principle still hold true in every technology in modern time and still the basic of engineering
Newton's First law of motion: "Objects in constant motion, remain in constant motion - unless acted upon by a force" Newton's Second law of motion: "The force exerted on an object is equal to it's mass, multiplied by the acceleration of the object" Newton's Third law of motion: "For every action, there is an equal and opposite reaction"
energy
see Newton's Laws of Motion
Yes. This is Newton's Third Law,
When a first object exerts a force, F1 ,on a second object, the second object simultaneously exerts a force, F2 = −F1 on the first object. This means that F1 and F2 are equal in magnitude and opposite in direction.
C. equal
Newton's second law of motionAn object at rest will stay at rest until an unbalanced force acts on the object.An object moving will stay at the same speed and direction until acted upon by an unbalanced force. That is the first law of motion.
Newton's first law of motion was the law of inertia. When an object is in motion, it stays in motion. When an object is in rest, it stays in rest.
Newton first realized that acceleration depends on the amount of force applied to that object
Newton's first law: the law of inertia, states that an object rest tends to stay at rest and an object in motion tends to stay in motion. Newton's third law however states that every action has an equal and opposite reaction. One describes inertia and three describes the normal force.
Remember Newton's First Law - Unless acted on by a force, bodies at rest will stay at rest and bodies in motion will stay in motion. To be able to observe acceleration, first a force has to act on the object. So, the question should be reversed - "Will the force on an object affect the acceleration?" Answer - YES. How will it be affected? Refer to Newton's Second Law for that.
An object in motion will stay in motion, at a constant velocity. This assumes that no net force acts on the object. This is known as Newton's First Law.
The mass of the first object; the mass of the second object; the distance between them.The mass of the first object; the mass of the second object; the distance between them.The mass of the first object; the mass of the second object; the distance between them.The mass of the first object; the mass of the second object; the distance between them.
The first Newton.