The density of water at 4 °C is exactly 1 g per milliliter (1 g = 1 mL), or equivalently 1 kg per liter (1 kg = 1 L). However, the density is temperature dependent, and so this is not exactly true at all temperatures (but pretty close).
So at 4 °C, 18.016 g is exactly 18.016 mL, 0.018016 L.
At other temperatures this will be slightly different. Under the Web Links to the left of this answer is a link to a website that has an automatic calculator to find the density of water at any temperature. Just type in the temperature and it gives you the density. Then just divide the mass by the density to get the volume. (Note that the site also has an entry for the salinity of the water -- if you want pure water, make sure to set the salinity to 0).
Note that 18.016 grams is the exact weight of 1 mole of water, but that is really pretty much irrelevant to determining the volume, unless you happen to know the molar volume of water. The density, in grams per mL is much more commonly known that the molar volume.
To be able to answer how many grams are in that many liters one would have to know the substance being measured in order to find the density. If you find the density of the substance (which should be measured in grams/liter) then you can just multiply that by 18.75.
The density of standard water at standard temperature and standard pressure
is supposed to be 1 kilogram/liter = 1 gram/milliliter.
So, if that's the substance that you're handling and the environment in which
you're working, then 18.02 grams of it occupy 18.02 milliliters of volume.
29 cc of water at 4 degrees Celsius = 29 grams. You can't convert a volume to a mass unless you know the density of the material occupying the volume.
That depends on the density (density = mass / volume). If it is water then the volume would be 75 ml or 75 cu cm.
Depends on the substance. A gram of lead will have a lot less than a ml of volume, while a gram of oxygen will have a greater volume than 1 ml. Water is 1 ml per gram, but that changes with the temperature of the water. Warm water, and very cold water (<4o C) will have a somewhat greater volume than 1 ml per gram weight.
5g ----------------------------------------------------------------------------- The volume of a teaspoon is considered to be 5 mL. The mass contained depends on the density of the material because the mass is the product between volume and density.
It's not that easy. -Grams is weight and cup or ml is volume. The gram and ml are ONLY directly related in weight/volume of water, - ( 1 litre of water weighs 1 Kilogram, so any amount of ml is the same in grams,-but ONLY for water ! ) - If your medium is flour, the volume is much greater, if sand volume is much smaller.So without knowing the medium you question has no real answer.
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!
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
The volume of 112 grams of water is 112 ml.Pure water weighs 1 gram per milliliter (or cubic centimeter cc).
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.
10 ml of water has 10 c.c. volume
100 grams of water
Does not compute! Grams is a measure of weight, ounces of water is a measure of volume.
If that is in water, 7m l
That is 454 ml.
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.