Danger said:
Weight is just the effect upon mass of a gravitational source.
pb23me said:
i know weight is mass*gravity and that's is what "weight" scales measure...Gravity's effect on mass. am i wrong or right?
Wrong and wrong, at least in terms of what a spring scale measures.
Danger said:
You're right, but now I'm starting to wonder about the semantics myself. Those same scales on the moon would read 1/6th of what they do at sea level on Earth, and would read nothing at all in zero gravity, so I've revised my opinion to think that they do actually measure weight rather than mass.
Getting closer. Zero gravity, at least in the terms of astronauts floating around the space station, does not mean that there is no gravitational force. Those astronauts gravitational weights (mass times acceleration due to gravity) are about 88% of their weight on the surface of the Earth.
So why do we call it "zero gravity" and what do spring scales measure? The latter question first: Spring scales measure everything but gravitational force. There is no device that can directly measure gravity. Einstein's equivalence principle comes into play.
Suppose you took a spring scale on the Vomit Comet. As the plane starts its climb in preparation for a zero-g parabolic arc the scale will register your weight as higher than normal. As the plane starts its parabolic arc your scale weight will decrease and reach zero. You feel weightless, and that is exactly what the scale registers. When the plane starts to level out your scale weight will increase, eventually surpassing your normal weight. Time for the next parabolic arc. The gravitational force changes by a tiny, tiny amount between the bottom and top of those arcs. Your gravitational weight, m*g, hardly changes at all. The scale obviously is not weighing m*g.
When you are standing still on the surface of the Earth the scale is exerting an upward force on you that nearly cancels the downward force due to gravity. By Newton's third law, you are exerting a downward force on the scale that is equal but opposite to that upward force exerted on you by the scale. It is this downward force exerted by you on the scale that the scale measures. Note that I said "nearly cancels". Even on when you are standing on the surface of the Earth a spring scale does not quite measure your gravitational weight (m*g). You are rotating at one revolution per day about the Earth's axis, after all. The difference between your scale weight and gravitational weight is rather small when standing still on the surface of the Earth, and is even smaller when standing still on the surface of the Moon.So why do we call it zero g? As far as those astronauts are concerned, and as far as Einstein's equivalence principle is concerned, those astronauts are weightless. Just as a scale measures everything but gravity, people feel everything force acting on them but gravity.