Gravity does not effect mass, weight is what you get when you resist the effects of gravity. (Note that in "free fall" and/or "micro gravity" you are not resisting.)
weight is the force of gravity on an object, and mass is the volume o space it takes up, independent of the gravitational pull.
by using telling the weigh
If gravity increases, the bridge is subjected to more weight. If gravity decreases, the bridge is subjected to less weight. Either way, the bridge will have a maximum weight that will remain the same regardless of the gravitational environment.
the mass would stay the same no matter where you are and the weight is the force of gravity on an object, so depending on the gravity your weight would change
It is really the other way round - gravity has an effect on weight. The more gravity, the more weight.
weight is the effect caused by gravity. if gravity increases, so does your weight!
gravity has no effect to space ad weight show
Weight.
weight is the effect of gravity acting on mass,the greater the mass the greater the effect on gravity will have on it therefore the greater the weight. eg. if the mass is 50kg and gravity is 10N the the weight is 500N,if the mass increases to 100kg the the weight would increase to 1000N
Gravity
weight is the effect of gravity acting on mass,the greater the mass the greater the effect on gravity will have on it therefore the greater the weight. eg. if the mass is 50kg and gravity is 10N the the weight is 500N,if the mass increases to 100kg the the weight would increase to 1000N
Gravity does not effect mass, weight is what you get when you resist the effects of gravity. (Note that in "free fall" and/or "micro gravity" you are not resisting.)
Mass and gravity. F = ma. Weight is a measurement of the force a mass exerts downwards due to the effect of gravity.
weight is the force of gravity on an object, and mass is the volume o space it takes up, independent of the gravitational pull.
It could be Newton who discovered that weight was the effect of gravity acting on a mass.
No, The weight is depends on gravity and total mass .