Volume is a measure of the amount of space an object occupies, while mass is a measure of the amount of matter in an object. Volume is typically measured in cubic units (such as cubic meters), while mass is measured in units like grams or kilograms. The two measurements provide different information about an object - volume tells us about the space it occupies, while mass tells us about the quantity of matter within it.
If the volume of an object becomes greater than its mass, the mass density will decrease. Mass density is defined as mass per unit volume, so if the mass stays the same but volume increases, the density will decrease because there is more volume to spread out the mass.
One is the reciprocal of the other. It is more common to use "mass per volume", but in theory you could use either. If object "A" has more mass per volume than object "B", then object "B" will have more volume per mass than object "A".
If a block's mass is bigger than its volume, it means the block is denser. This could indicate that the material is very compact and tightly packed. The density of an object is calculated by dividing its mass by its volume, so if the mass is greater than the volume, the density will be high.
No, density changes when both mass and volume increase. Density is calculated by dividing mass by volume, so if both mass and volume increase proportionally, the density will remain the same. If mass increases more than volume, or volume decreases more than mass, density will increase.
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Because volume is the ratio mass/density.
If the volume of an object becomes greater than its mass, the mass density will decrease. Mass density is defined as mass per unit volume, so if the mass stays the same but volume increases, the density will decrease because there is more volume to spread out the mass.
It makes no difference. Density = mass / volume. You divide the mass by the volume. If the volume is greater than the mass your answer will necessarilybe less than one, but that is still the correct answer showing the density in terms of the units used.
One is the reciprocal of the other. It is more common to use "mass per volume", but in theory you could use either. If object "A" has more mass per volume than object "B", then object "B" will have more volume per mass than object "A".
No, copper does not have more volume than iron for the same weight or mass. Copper is denser than iron, so a given mass of copper will have a smaller volume than the same mass of iron.
The mass is always less than the volume
No, not all solids necessarily have less volume than the same mass of liquid. The relationship between volume and mass depends on the density of the substance. Some solids may be more dense than liquids, resulting in a smaller volume for the same mass.
If a block's mass is bigger than its volume, it means the block is denser. This could indicate that the material is very compact and tightly packed. The density of an object is calculated by dividing its mass by its volume, so if the mass is greater than the volume, the density will be high.
No, density changes when both mass and volume increase. Density is calculated by dividing mass by volume, so if both mass and volume increase proportionally, the density will remain the same. If mass increases more than volume, or volume decreases more than mass, density will increase.
Density is mass divided by volume. If we assume the mass of the iron and the cotton is the same, you will find that the iron will occupy less space (less volume) than that of the cotton. The value of a mass divided by a small volume is higher than the value of the same mass divided by a larger volume. If we assume the volume of both the iron and the cotton is the same, you will also find that the mass of the iron will be higher than the mass of the cotton. The value of a large mass divided by a volume is larger than the value of a small mass divided by the same volume. In both assumptions, the value of mass divided by volume for the iron is higher than the value of mass divided by volume for the cotton. Since density is mass divided by volume, the density of iron is therefore higher than the density of cotton.
No. An object's mass is not altered by its volume.
because its dodobird