The volume of nothing is nothing
100 grams of water at standard temperature and pressure has a volume of 100 cubic centimeters or 100 millilitres. The volume of 100 grams of any other substance will depend on its specific gravity or density: if less than that of water, it will have a greater volume; if greater than that of water, it will have a smaller volume.
No, mL are a unit of volume and grams are a unit of mass. 1 mL of water has a mass of 1 g
1 gm/ml
Grams can't be converted to cups. Grams measure mass, while cups measure volume.
The volume of nothing is nothing
When the water froze into ice it was expanding (thermal expanision) causing the 100 grams of ice to have a greater volume than 100 grams of water!
Volume and Grams are different concepts. Grams Objects Volume Water
40205 cm is a measure of distance of length. A length has no volume and without a volume there can be no water. Therefore, the answer to the question is zero kg and 0 grams.
The volume of 112 grams of water would be approximately 112 milliliters, since the density of water is about 1 gram per milliliter at room temperature.
10 ml of water has 10 c.c. volume
The mass of water can be determined by multiplying the volume of water by its density. Given that the density of water is 1.0 grams per cubic cm, and the volume of water is 50 ml, the mass of the water would be 50 grams.
Does not compute! Grams is a measure of weight, ounces of water is a measure of volume.
100 grams of water at standard temperature and pressure has a volume of 100 cubic centimeters or 100 millilitres. The volume of 100 grams of any other substance will depend on its specific gravity or density: if less than that of water, it will have a greater volume; if greater than that of water, it will have a smaller volume.
If that is in water, 7m l
That is 454 ml.
Grams are a measurement of weight, millilitres are a meaurement of volume. The standard for the metric volume (put in lamens terms) of the litre is the amount of space taken up by one kilogram in weight of pure water therefore the volume taken up by 300 millilitres of pure water will weigh 300 grams. That is of course if you are measuring 300 grams of pure water, if you have 300 grams of an item that has a different mass and density to pure water you will then have that item taking up a different amount of volume. This difference in volume can be quite dramatic depending on the density and mass of the item.