You need to specify the units of mass and volume.
100 g / 10cm^3 = 10g/cm^3
density = mass divided by volume = 100/25 = 4 grammes per cubic centimetre.
The density is (the mass, in grams)/100 grams per cm3 .
This density is 0,8 g/cm3.
It's the mass divided by its volume. The volume of a rectangular prism is length times width times height. So it would be 100 grams divided by the volume, and that volume = (L*W*H)
Assuming mass does not also increase, then density decreases if volume increases. For example, let's say Mass= 100 and Volume= 50 Density would = 2 Now, lets increase the volume. Mass would still = 100, and let's increase the volume to 75. Density would then equal 1.333... 2 is greater than 1.333.... so yes, density decreases as volume increases.
Density = Mass/Volume = 100/50 kg/cc = 2 kg/cc
Impossible to answer. A volume is not measured in grams it is a cubic amount
5 gm/cc
The volume of an object having a mass of 100 grams depends on the density of the object. --------------------------------- and the temperature (the hotter things are the more they expand) 100grams of water with a density of 1 - at standard temperature would have a volume of 100 cubic centimeters. a substance with density 2 - at standard temperature would have a volume of 50 cubic centimeters.
Density = (mass) / (volume) = 20/4 = 5 grams per cc
It is 100 g/cm3 which is way above the most dense element!
no density equals mass divided by volume. if both solids have a mass of 100 grams (for example) one has a volume of 100 mL (or centimeters cubed), it's density is 1 g/mL if the other has a volume of only 50 mL it's density is 2 g/mL
100 g / 10cm^3 = 10g/cm^3
Density = Mass/Volume = 100/200 = 0.5 grams per ml.
Any object with an average density of 1.538 g/cc.
density = mass divided by volume = 100/25 = 4 grammes per cubic centimetre.