The relationship between them is as follows.
mass = volume x density
weight = mass x gravity
That means that, other things being equal, mass is proportional to volume. On the other hand, weight is also proportional to mass.
They're not. Weight is the force produced on a mass by gravity. Volume is totally independent.
Density is mass per unit volume, and sometimes in some industries weight per unit volume is used. Weight per unit volume is also sometimes called specific weight. Weight and mass are not the same. Volume per unit mass is called specific volume, and is the reciprocal of density. It is not clear whether volume per unit weight can also be used as a measure of specific volume.
Mass (measured as weight) is dependent on both density and volume.
they have magnitute in common,,
Weight or mass per volume.
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)
weight and mass measures the volume
The formula for mass if density is not given is mass=volume/power
Density = Mass/Volume is a measure of the amount of matter in a unit volume of a substance. Weight is the effect of gravity acting on a mass.
weight is different in different gavities but mass is not, volume is not involved
They're not. Weight is the force produced on a mass by gravity. Volume is totally independent.
The mass and weight are unchanged. The volume is reduced.
Mass, volume, and density
Density is mass per unit volume, and sometimes in some industries weight per unit volume is used. Weight per unit volume is also sometimes called specific weight. Weight and mass are not the same. Volume per unit mass is called specific volume, and is the reciprocal of density. It is not clear whether volume per unit weight can also be used as a measure of specific volume.
by its weight
Mass = weight /gravity Density = Mass / Volume So, if you know the density and the volume, you can calculate the mass. Also, you can measure the mass by measuring the weight. On earth, mass and weight are equal.
Mass is the amount of material in an object. Mass has weight, volume, takes up space, and is measurable.