Mass is the quantitiy of matter. But weight is the force of pull on the mass due to gravity. So mass is invariant where as weight depends on the gravity. If acceleration due to gravity is zero, then weight too becomes zero. So in free space mass exists but weight vanishes.
Weight is the force that gravity pulls down on an object.Fat is a nutrient.
The difference between a person's weight on the earth and on the moon has to due with the difference between mass and weight. Mass is a measure of the amount of matter and weight is the pull of gravity on that mass. Gravity on the moon is about 83% that on earth, so if you weigh 100 lbs on earth, you will weigh approximately 17 lbs on the moon.
I think it all depends upon gravity
Yes. The relationship is: weight = mass x gravity Near Earth's surface, the value for gravity is approximately 9.8 newton/kilogram.
Mass is a measure of the amount of matter in an object. Weight is the effect of the force of gravity on the mass of an object.
Weightlessness means having little or no weight; not experiencing the effects of gravity. The difference between weightlessness and swimming is that during swimming you feel your weight less but you still have weight, you are still being subject to the same amount of gravity. Your weight and gravity are what is keeping you in the water.
It would go something like this. e = Earth's gravity m = Mercury's gravity e*0.38=m Just put whatever number in Earth's gravity and do the math.
The difference is that the mass density not effect by gravity but weight density effect by gravity. for example if mass density cotn in earth equal to 20 kg/m3 and weight density equal to 196.2 N/m3 this cotn will change the weight density in the moon but mass density not change because gravity moon diffrent to gravity earth mass density =mass/volume (no gravity) weight density= (mass * gravity)/volume (gravity)
weight = mass x gravity
Weight = Mass x Gravity
Streak: The powder mark left by a mineral when it is rubbed against a harder object. Specific Gravity: The exact weight of an object.
Because gravity is relatively constant anywhere on Earth's surface.