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No, Density is directly proportional to mass; Density increases as the mass increases, density decreases when mass decreases. Density is inversely proportional to volume; Density decreases when volume increases, density increases when volume decreases.
Density is defined as mass divided by volume, therefore: 100g/25cm3 = 4 g/cm3
An electron has a very small mass, not a large mass.
Density = Mass/Volume = 150g / 50cm3 = 150/50 g per cm3 = 3 g per cm3
It means it's mass is very high and its volume is very low. A standard neutron star has a mass thousands of times greater than the sun, but a volume of a small city. This ridiculously high density and pressure also account for the high temperatures of neutron stars. PS. Quark stars are denser than neutron.
what is the density of a brick with a volume of 0.0010m and a mass of 1.9kg
Volume x density = Mass A material with high density has a great mass for a small volume.
No, Density is directly proportional to mass; Density increases as the mass increases, density decreases when mass decreases. Density is inversely proportional to volume; Density decreases when volume increases, density increases when volume decreases.
no; they have the same volume but their mass is quite different; density is mass/volume and the sponge has much lower density
Density is defined as mass divided by volume, therefore: 100g/25cm3 = 4 g/cm3
Having a high mass per unit of volume is what makes a substance dense. Density is defined as the quotient of the mass of a substance and its volume.
An electron has a very small mass, not a large mass.
Density = Mass/Volume = 150g / 50cm3 = 150/50 g per cm3 = 3 g per cm3
Because it has a high mass and volume
It means it's mass is very high and its volume is very low. A standard neutron star has a mass thousands of times greater than the sun, but a volume of a small city. This ridiculously high density and pressure also account for the high temperatures of neutron stars. PS. Quark stars are denser than neutron.
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.
The volume and the mass of sample both depend on the size of the sample.A small sample has small volume and small mass, a big sample has big volumeand big mass. But the ratio of mass to volume is constant for a pure sample ofa substance, no matter what size the sample is. That ratio is called the densityof the substance.