Volume is the size of a solid and mass is the quantitative measure of inertia, or the resistance of a body to a change in motion.
The definition of density is mass divided by volume.
Matter has mass and volume, this is the idea in the classic physics; but todaty a correct and definitive definition of matter is impossible.
Density is a property of matter representing the mass per unit 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)
Yes, the standard definition of density is mass divided by volume. This presumes the mineral is uniform throughout the sample.
The definition of density is mass divided by volume.
By definition, density = mass / volume.
The definition of density is: Density = (Mass) divided by (Volume).A simple algebraic operation rearranges this definition to give: Mass = (Density) times (Volume)
Matter has mass and volume, this is the idea in the classic physics; but todaty a correct and definitive definition of matter is impossible.
The definition of density is the MASS per unit of VOLUME, which means that it is the mass (how heavy it is) relatively to its volume (how big it is).
yes
Density is a property of matter representing the mass per unit volume. :)
The quantity of mass contained within a volume is called its Density. Actually the quantity of Mass per unit Volume is Density , by Definition.
Density = Mass/Volume, with this equation, if two things are given the third can easily be calculated. In your question, you was volume when density and mass are given. So Volume = Mass/Density
By definition, Density = mass/volume If the mass is increased (as you stipulated) and assuming the volume remains the same, the density will likewise increase.
Density is by definition mass divided by volume. Therefore volume times density equals mass. Diving both sides of that equation by the density, we get volume equals mass divided by density. So the answer to your question is, divide the mass by the density.
The law of conservation of mass states mass= density times volumeThe definition of density=mass/volumemultiply the density and the volume! =mass