Mass cannot possibly contain 'no' matter in it, because mass is matter.
However, volume is a region of space, and it can contain a lot, a little,
or no matter in it (known as the state of being 'MT'.)
The two are not comparable.
The two are not comparable.
The two are not comparable.
The two are not comparable.
Volume is bigger than mass
The two are not comparable.
Mass
Mass and volume. You divide the mass by the volume to get density with the corresponding units. Mass and volume. Density = mass/volume Often, mass is in grams and volumes in milliliters. Water has a density of 1g/ml. Air has a density of about 0.0013g/ml. Lead has a density of 11.34g/ml.
D=m/v Density=mass/volume de= ma/vo Density = Mass/Volume
Yes, very good. Volume is mass divided by density.
Mass is kilograms Volume is cubic meters
There is no direct relationship between how much mass an object has and it's volume. That is, mass plays no part in calculating the volume, and volume plays not part in determining mass. However, they are related by the equation to calculate the density. Density=Mass/Volume.
no... Mercury's diameter is 38.3% of Earth's diameter, its volume is 5.6% of Earth's volume, and its mass is 5.5% of Earth's mass.
are u there
If these measurements are made in cubic cemtimeters (volume) and grams (mass) this is true. But, if mass is from the english system, (not really pounds, it is slugs, but who knows what a slug is?) and the volume is cubic feet, this is not true.
Mass = Density x Volume Density = Mass/Volume Volume = Mass/Density
Yes under constant pressure, with a given mass, volume changes during the change of state. When steam condenses, its volume is reduced. But, when water changes into ice, its volume becomes more. This is known to be anomalous expansion of water. Where as in other cases, when the liquid form gets changed into solid form, the volume is reduced.
No it is mass divided by volume so for example when u want to figure out density by floating things, anything below the water is a bigger density then 1.00
Well usually, the bigger the volume, the better it floats. But mostly, it matters about how much mass an object contains.
A concentrated solution contain a bigger mass of solute in the same volume of solvent.
No. Density is the mass per unit volume ( ie per cubic foot, cubic cm etc). So the bigger the mass, the density remains unchanged.
The answer is the VOLUME
Volume = mass / Density Mass = Volume * Density Density = Mass / Volume
No, although mass is not directly related, or convertible, to volume.