The density of water at standard temperature and pressure is 1 gram/milliliter.
The size of the sample is irrelevant. If the sample is pure, then one drop
of it has the same density as a tankerful of it has.
Using Specific gravity of water which is equal to the density of water in this instance: 1 g/mL
There's 100 g in 100 mL --> 0.1 L in 100 g 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!
8g
Find moles potassium iodide first.2.41 grams KI (1 mole KI/166 grams) = 0.01452 moles KIMolarity = moles of solute/Liters of solution ( 100 ml = 0.1 Liters )Molarity = 0.01452 moles KI/0.1 Liters= 0.145 M KI solution================
The component water is the solvent in this case.
The temperature would be that of water's boilng point od 100 degrees
if you have 100 liters how many moles does that equal?
There is 0.1 liters in 100 millimeters of water.
5000 liters
100 liters of plain water weighs about 3.17 pounds.
100 US fluid ounces is about three (2.95735) liters.
That is approximately 1/10 of a litre
400 liters of water will give you 500 liters of substance with 100 of that being juice. 100 is 20% of 500. So, you would need to add 400 liters of water.
6.25 gal 1 gallon = 16 cups 1 cup = 0.06 Gallon
2.95 Liters
100% pure H2SO4 doesn't exist
There are 0.1 liters in 100milliliters of water because 1L = 1000mL.
100 grams of water is approximately 20 teaspoons