Any volume of non-vacuum anything has mass.
Any mass has volume.
Both mass and volume have an 'm' in the word.
Other than that, they are not at all the same thing.
If mass stays the same and density decreases, then the volume must increase. This is because density is mass divided by volume, so if density decreases while mass remains constant, the volume must increase to maintain the same mass.
the volume could be different that could lead to the same density. For example: d=m/v so you would have a mass of 10 for compound A and a mass of 5 for compound B, and the volume of compound A is 2 and the volume of compound B has a volume of 1. Therefore both densities equal 5.
No, volume and mass are related but they are not the same. As an example, 1 liter of water has a mass of 1 kg whereas 1 liter of mercury has a much higher mass. Mathematically, Mass divided by volume is equal to density. Mass has units of Kg and volume has units of m3.
Any extensive quantity divided by volume is called that quantity density .A baby's mass is small, a baby's volume is small ; but its average mass density (mass divided by volume) is the same as for anyone - anyone composed of the same materials, in the same fractions.
No. Mass and volume are two completely different properties.
Yes, if two objects have the same volume and density, they will have the same mass. This is because mass is calculated by multiplying density and volume; therefore, having the same density and volume means the objects will have the same mass.
Because they are of the same substance they have the same density density = mass/volume
no; they have the same volume but their mass is quite different; density is mass/volume and the sponge has much lower density
no
If mass stays the same and density decreases, then the volume must increase. This is because density is mass divided by volume, so if density decreases while mass remains constant, the volume must increase to maintain the same mass.
Mass and volume are related through density, which is the amount of mass per unit volume of a substance. An object with a larger volume but the same mass as a smaller object will have a lower density. Conversely, an object with the same volume but more mass will have a higher density.
the volume could be different that could lead to the same density. For example: d=m/v so you would have a mass of 10 for compound A and a mass of 5 for compound B, and the volume of compound A is 2 and the volume of compound B has a volume of 1. Therefore both densities equal 5.
The density of a substance is its mass divided by its volume. So for the same volume the higher the mass, the higher the density.
Decreasing the mass of an object while keeping its volume constant will increase its density. Density is calculated by dividing mass by volume, so as mass decreases and volume remains the same, the density value will increase.
No, volume and mass are related but they are not the same. As an example, 1 liter of water has a mass of 1 kg whereas 1 liter of mercury has a much higher mass. Mathematically, Mass divided by volume is equal to density. Mass has units of Kg and volume has units of m3.
Changing the mass or volume of an object will alter its density. If mass increases and volume stays the same, density will increase. Conversely, if volume increases and mass stays the same, density will decrease.
You seem to be thinking that density is the same as mass, or proportional to mass. That is not the case. Density is mass divided by volume. For example, two objects of the same material have the same density. The larger object will have more mass (in the numerator), but it will also have more volume (in the denominator).