It depends entirely on what substance you're working with. For example, the volume of 96.2 grams of hydrogen is a lot more than the volume of 96.2 grams of lead.
160 grams
2.5 g/ml... Do your homework. =P
50.0 grams @ 1 cm3/0.950 grams=52.63cm3 the answer is 52.6cm3
Divide 158 by 156. The answer is the density in grams per ml. In this case, very close to 1 g/ml Density = MASS divided by VOLUME
WE know that Density D =mass/volume. Volume V = M/D =6.3/1.26 =5cm3.
Density = Mass/Volume = 962/350 = 2.7485 grams per cubic centimeter
Volume cannot be measured in grams per cubic centimetres, density can.
Density = mass/volume, so:36 grams/ 12 milliliters3 grams/ milliliter
0.000882 grams
The idea is to divide the mass by the volume.
Its is 10 cm³ hun
160 grams
2.5 g/ml... Do your homework. =P
Divide the number of grams by the density (the density of lead is about 11 grams/cubic centimeter - look it up if you need more precision). If the density is in grams/cubic centimeter, the answer is the volume in cubic centimeters.
Volume is a measure of how much space a sample of matter occupies. the SI unit of volume is m3 .
Fill a beaker with water, and weigh it. Weigh a sample of the mineral. That's the mass of the mineral. Put the sample in the beaker and weigh that. The weight of the water-filled beaker plus the weight of the mineral sample will be greater than the weight of the beaker with mineral sample and water. The difference is the weight of the displaced water, in grams. The volume of the mineral sample, in cubic centimeters is equal to the weight of the displaced water, in grams. Calculate the specific gravity of the mineral by dividing the weight of the mineral sample by the volume of the mineral sample. Example: your beaker weighs 40 grams. Filled with water, it's 1040 grams. The sample of mineral weighs 160 grams. The beaker with the sample of mineral and water weighs 1179.7 grams. The mineral, and the beaker with water would have a combined weight of 1200 grams, but the beaker with mineral and water weighs 20.3 grams less than that, so the mineral sample is displacing 20.3 cubic centimeters of water. Given a mass of 160 grams and a volume of 2.03 CC, the specific gravity would be found by dividing 160 by 20.3. It's 7.85. (Which happens to be the specific gravity of some iron.)
1000 g = 1 kilogram so 962 g = 0.962 kg. Simple!