Mass
The mass of a liter of water is equal to one kilogram. However, for other substances, the mass of a liter can vary depending on the substance's density.
The idea is to divide the mass by the volume. If, for example, the mass is in kilograms and the volume is in liters, then the density will have the units kilogram/liter.
Density has nothing to do with how heavy an object is. Density is mass divided by volume; if you take (for example) a liter of water, it will have a density of 1 kg/liter; if you take 1000 liters of water, the density will still be 1 kg/liter.
Density is a measure of mass per unit volume, so it is often expressed in units such as grams per cubic centimeter or kilograms per liter. In the metric system, 1 liter of a substance will have a different mass depending on its density. Low density substances will have less mass in 1 liter compared to high density substances.
To determine the mass of the sulfuric acid, you need to know the density of sulfuric acid. The density of sulfuric acid is around 1.84 g/ml. Using this density, you can multiply the volume (26.2 ml) by the density to find the mass of the sulfuric acid.
density = mass divided by volume volume = mass divided by density V = M/D = 1kg/D whre D is density in kg/liter and one liter is 1000 cubic centimeters
density=mass/volume volume=mass/density volume=327/1.05 311mL
The mass, in this case, is the product of the volume and the density. Please note that "0.75ml" is not a density. Density must be expressed as mass/volume, for example, grams/ml, kilograms/liter, etc. For example, if your density is 0.75 g/ml (usual unit), the answer is 90g
Not comparable - a liter is a unit of volume, a kilogram is a unit of mass. For specific substances, if you know the density, mass = volume times density.
To find the molality, we need to first calculate the molar mass of citric acid, which is 192.13 g/mol. Then, we calculate the moles of citric acid in 1 liter of solution (1.37 mol/L). Using the density, we can find the mass of 1 liter of solution (1100 g). Finally, we divide the moles by the mass of the solvent (in kg) to find the molality, which is 1.24 m.
The answer to your question can not be determined because an ounce is a unit of mass and a liter is a unit of volume. For example 1 liter of oxygen gas is going to be quite lighter in ounces than a liter of molten iron. So to answer this question you need to know the density of your substance. Density= Mass/volume.
There can be no standard conversion. A milligram is a unit of mass. A liter is a unit of volume. For a specific substance, you can do the conversion if you know its density (mass = volume x density).