I don't know. Figure it out on your own.
Gravity affects weight, it does not affect mass.
Yes, the measurement of your weight certainly depends on gravity as weight is mass multiplied by gravity, w=mg. Therefore, on the moon you would weigh less as your mass would stay the same but the gravitational field strength is less. The affect of gravity on height is not so obvious, although a stronger gravitational pull would cause the spine to contract, altering a persons height by mere millimetres.
weight weight(kg)=mass(volume) +gravity(N)
Yes. Mass is constant for a given object. Weight is a function of mass and gravity, stronger gravity more weight.
They're not. Weight is the force produced on a mass by gravity. Volume is totally independent.
Weight = (density) times (volume)The definition of density is mass/volume .Now [ weight = mass x gravity ], so [ mass = weight/gravity ], and [ density = weight/gravity x volume ] .So Weight = (density) x (volume) x (gravity)
Gravity affects weight, it does not affect mass.
No. You need the length, width and height. If you had weight but not height, you would need the density (or the specific gravity). Strictly speaking, you need mass, not weight because with weight you would also need the accelaration due to gravity.
Yes, the measurement of your weight certainly depends on gravity as weight is mass multiplied by gravity, w=mg. Therefore, on the moon you would weigh less as your mass would stay the same but the gravitational field strength is less. The affect of gravity on height is not so obvious, although a stronger gravitational pull would cause the spine to contract, altering a persons height by mere millimetres.
There is no weight ratio for height. The weight of an object depends on its the volume and density. The volume depends on the height as well as the average cross section so height, alone, cannot determine weight.
weight weight(kg)=mass(volume) +gravity(N)
Parachutist weight. Gravity. Wind flow. Landing speed. Jump height. Weather.
Weight would not exist w/o gravity. Weight is defined as mass times the force of gravity acting on that weight. Mass is constant, density is constant, and volume is constant, if gravity is the only variable.
They're not. Weight is the force produced on a mass by gravity. Volume is totally independent.
Yes it affects weight, but not mass.
Yes. Mass is constant for a given object. Weight is a function of mass and gravity, stronger gravity more weight.
Density is not affected by gravity. Density is affected by mass and volume, such that density = mass/volume. Weight, but not mass, is affected by gravity. Weight and mass are not the same thing.